mirror of
https://github.com/libretro/Lakka-LibreELEC.git
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272 lines
9.6 KiB
Python
Executable File
272 lines
9.6 KiB
Python
Executable File
#!/usr/bin/env python3
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# -*- coding: utf-8 -*-
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# SPDX-License-Identifier: GPL-2.0
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# Copyright (C) 2019-present Team LibreELEC (https://libreelec.tv)
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import sys, os, codecs, datetime, time
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import copy
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ALL_STATUSES = ["ACTIVE", "FAILED", "GETPKG", "IDLE", "LOCKED", "MUTEX", "MUTEX/W", "STALLED", "UNLOCK"]
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BUSY_STATUSES = ["ACTIVE", "MUTEX", "GETPKG"]
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STALLED_STATUSES = ["STALLED", "MUTEX/W"]
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EPOCH = datetime.datetime(1970, 1, 1)
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MAXSLOTS = None
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class HistoryEvent:
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def __init__(self, event):
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# squash spaces, then split by space
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items = ' '.join(event.replace("\n", "").split()).split(" ")
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self.datetime = "%s %s" % (items[0], items[1][:-4])
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(self.slot, self.seq) = items[3][1:-1].split("/")
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self.status = items[4]
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self.task = items[5] if len(items) > 5 else ""
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self.task = items[5] if len(items) > 5 else ""
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self.package = items[6] if len(items) > 6 else ""
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self.msg = ' '.join(items[7:]) if len(items) > 7 else ""
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self.secs = None
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def __repr__(self):
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return "%s; %s; %s; %s; %s; %s; %s;" % (self.datetime, self.slot, self.seq, self.status, self.task, self.package, self.msg)
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def get_time_secs(self):
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if self.secs == None:
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self.secs = (datetime.datetime.strptime(self.datetime, "%Y-%m-%d %H:%M:%S.%f") - EPOCH).total_seconds()
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return self.secs
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def isConfig(self):
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return (self.task == "config")
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def getConfig(self, item, default=None):
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if self.isConfig():
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pairs = self.msg.split(";")
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for pair in pairs:
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(key, value) = pair.split("=")
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if key == item:
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return(value)
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return default
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def calc_pct(a, b):
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if b > 0.0:
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return (a / b) * 100
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else:
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return 0.0
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def pct_brackets(pct):
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spct = "%04.1f" % pct
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if float(spct) >= 100.0:
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return "( %s%%)" % spct[:-2]
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else:
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return "(%s%%)" % spct
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def secs_to_hms(seconds, blankzero=False):
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hours = "%02d" % int(seconds / 3600)
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mins = "%02d" % int(seconds / 60 % 60)
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secs = "%06.3f" % (seconds % 60)
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if blankzero and hours == "00":
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hours = " "
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if mins == "00":
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mins = " "
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return "%2s:%2s:%s" % (hours, mins, secs)
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def get_busy_total(slot):
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return summary[slot]["busy"]["total"]
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def get_concurrent_val(concurrent):
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return concurrency[concurrent]["total"]
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#---------------------------
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events = []
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for event in sys.stdin: events.append(HistoryEvent(event))
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if len(events) > 0 and events[0].isConfig():
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MAXSLOTS = events[0].getConfig("slots")
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del events[0]
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if len(events) == 0:
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sys.exit(1)
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started = events[0].get_time_secs()
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ended = events[-1].get_time_secs()
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now = time.time()
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last_active = ended
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incomplete = False
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concurrency = {}
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active = peak = 0
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slotn = {}
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if MAXSLOTS:
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for s in range(1, int(MAXSLOTS) + 1):
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slotn["%0*d" % (len(events[0].slot),s)] = 0
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else:
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for event in events:
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slotn[event.slot] = 0
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# Acumulate information in this hash - meh
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data = {"previous_status": None, "isactive": False, "statuses": {}}
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for status in ALL_STATUSES:
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data["statuses"][status] = {"enabled": False, "count": 0, "start": 0.0, "total": 0.0}
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data["statuses"]["IDLE"]["start"] = started
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# For each slot allocate data storage
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slots = {}
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for slot in slotn:
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slots[slot] = copy.deepcopy(data)
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# Process all events, accumulating counts and elapsed time for each status by slot
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for event in events:
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slot = slots[event.slot]
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# Record accumulated time for the previous event
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previous = slot["previous_status"]
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if previous and slot["statuses"][previous]["enabled"] == True:
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prev_status = slot["statuses"][previous]
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prev_status["enabled"] = False
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prev_status["total"] += (event.get_time_secs() - prev_status["start"])
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# Determine max concurrency
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if event.status in BUSY_STATUSES:
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if previous == None or previous not in BUSY_STATUSES:
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active += 1
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concurrent = concurrency.get(active, {"start": 0.0, "total": 0.0})
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concurrent["start"] = event.get_time_secs()
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concurrency[active] = concurrent
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if active > peak:
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peak = active
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elif previous in BUSY_STATUSES:
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concurrency[active]["total"] += (event.get_time_secs() - concurrency[active]["start"])
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active -= 1
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# Record details for the new event
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this_status = slot["statuses"][event.status]
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this_status["enabled"] = True
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this_status["count"] += 1
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this_status["start"] = event.get_time_secs()
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slot["previous_status"] = event.status
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# If any slots remain active then either the build has failed or the build is
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# ongoing in which case "close" the active slots with the current time.
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# For IDLE states, "close" the event with the elapsed time to the last known event.
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for slot in slots:
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for status in slots[slot]["statuses"]:
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if status == "IDLE":
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if slots[slot]["statuses"]["FAILED"]["enabled"] == True:
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slots[slot]["statuses"][status]["total"] += (last_active - slots[slot]["statuses"]["FAILED"]["start"])
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else:
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slots[slot]["statuses"][status]["total"] += (last_active - slots[slot]["statuses"][status]["start"])
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elif slots[slot]["statuses"][status]["enabled"] == True:
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if status != "FAILED":
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incomplete = True
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slots[slot]["isactive"] = True
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slots[slot]["statuses"][status]["total"] += (now - slots[slot]["statuses"][status]["start"])
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ended = now
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# Summarise slot data by various criteria
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summary = {}
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cumulative_count = cumulative_total = 0
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for slot in slots:
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acount = atotal = 0
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scount = stotal = 0
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ccount = ctotal = 0
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for status in BUSY_STATUSES:
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if status in slots[slot]["statuses"]:
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acount += slots[slot]["statuses"][status]["count"]
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atotal += slots[slot]["statuses"][status]["total"]
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for status in STALLED_STATUSES:
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if status in slots[slot]["statuses"]:
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scount += slots[slot]["statuses"][status]["count"]
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stotal += slots[slot]["statuses"][status]["total"]
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for status in slots[slot]["statuses"]:
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ccount += slots[slot]["statuses"][status]["count"]
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ctotal += slots[slot]["statuses"][status]["total"]
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cumulative_count += ccount
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cumulative_total += ctotal
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summary[slot] = {"busy": {"count": acount, "total": atotal},
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"stalled": {"count": scount, "total": stotal},
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"cumulative": {"count": ccount, "total": ctotal}}
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# Accumulate stalled stats
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stalled_count = stalled_total = 0
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for slot in summary:
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stalled_count += summary[slot]["stalled"]["count"]
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stalled_total += summary[slot]["stalled"]["total"]
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elapsed = (ended - started)
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print("Total Build Time: %s (wall clock)" % secs_to_hms(elapsed, blankzero=False))
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print("Accum Build Time: %s (%d slots)\n" % (secs_to_hms(cumulative_total, blankzero=False), len(slots)))
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if incomplete:
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print("*** WARNING: active slots detected - build may be in progress/incomplete ***\n")
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cum_total = 0.0
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print("Breakdown by status (all slots):\n")
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print(" Status Usage ( Pct ) Count State")
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for status in sorted(ALL_STATUSES):
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total = 0
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count = 0
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for slot in slots:
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if status in slots[slot]["statuses"]:
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count += slots[slot]["statuses"][status]["count"]
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total += slots[slot]["statuses"][status]["total"]
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pct = calc_pct(total, cumulative_total)
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cum_total += total
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if status in BUSY_STATUSES:
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stype = "busy"
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elif status in STALLED_STATUSES:
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stype = "stall"
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else:
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stype = ""
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print(" %-7s %12s %-7s %-5d %-5s" % (status, secs_to_hms(total, blankzero=True), pct_brackets(pct), count, stype))
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print(" -------------------------------------")
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print(" %-7s %12s %-7s %-5d" % ("TOTAL", secs_to_hms(cumulative_total, blankzero=True), \
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pct_brackets(calc_pct(cum_total, cumulative_total)), cumulative_count))
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print("")
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print("Peak concurrency: %d out of %d slots\n" % (peak, len(slots)))
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print("%d job slots were held in a \"stall\" state for %s\n" % (stalled_count, secs_to_hms(stalled_total)))
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print('Slot usage (time in a "busy" state): | Concurrency breakdown ("busy"):')
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print(" |")
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print("#Rank Slot Usage ( Pct ) | # of Slots Usage ( Pct )")
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lines = []
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busy_total = 0
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for rank, slot in enumerate(sorted(summary, key=get_busy_total, reverse=True)):
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pct = calc_pct(summary[slot]["busy"]["total"], cumulative_total)
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state = "active" if slots[slot]["isactive"] == True else " "
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stime = secs_to_hms(summary[slot]["busy"]["total"], blankzero=True)
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busy_total += summary[slot]["busy"]["total"]
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lines.append("%s %s %-7s %6s |" % (slot, stime, pct_brackets(pct), state))
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concurrent_total = 0
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for rank, concurrentn in enumerate(sorted(concurrency, key=get_concurrent_val, reverse=True)):
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concurrent = concurrency[concurrentn]
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pct = calc_pct(concurrent["total"], cumulative_total)
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stime = secs_to_hms(concurrent["total"], blankzero=True)
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concurrent_total += concurrent["total"]
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lines[rank] += " %02d %s %-7s" % (concurrentn, stime, pct_brackets(pct))
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for rank, line in enumerate(lines):
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print(" #%02d %s" % (rank + 1, line))
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print("-----------------------------------------+---------------------------------")
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print(" TOTALS %s %-7s %s %-7s" %
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(secs_to_hms(busy_total, blankzero=True), pct_brackets(calc_pct(busy_total, cumulative_total)),
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secs_to_hms(concurrent_total, blankzero=True), pct_brackets(calc_pct(concurrent_total, cumulative_total))))
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