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run_summary.py
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run_summary.py
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#!/usr/bin/env python3
"""
Tools to summarise access-om2 runs.
Latest version: https://github.com/aekiss/run_summary
Author: Andrew Kiss https://github.com/aekiss
Apache 2.0 License http://www.apache.org/licenses/LICENSE-2.0.txt
"""
# TODO: use PAYU_N_RUNS - does this tell you whether the run is part of a sequence? if so we can determine queue wait for runs in a sequence - but sometimes it is None
from __future__ import print_function
import sys
try:
assert sys.version_info >= (3, 3) # need python >= 3.3 for print flush keyword
except AssertionError:
print('\nFatal error: Python version too old.')
print('On NCI, do the following and try again:')
print(' module use /g/data/hh5/public/modules; module load conda/analysis3\n')
raise
import os
import glob # BUG: fails if payu module loaded - some sort of module clash with re
import subprocess
import datetime
import dateutil.parser
from collections import OrderedDict
import csv
import copy
try:
import numpy as np
import yaml
import f90nml # from https://f90nml.readthedocs.io/en/latest/
except ImportError: # BUG: don't get this exception if payu module loaded, even if on python 2.6.6
print('\nFatal error: modules not available.')
print('On NCI, do the following and try again:')
print(' module use /g/data/hh5/public/modules; module load conda/analysis3\n')
raise
import nmltab # from https://github.com/aekiss/nmltab
import warnings
warnings.simplefilter('ignore', np.RankWarning)
def num(s):
"""
Return input string as int or float if possible, otherwise return string.
"""
try:
return int(s)
except ValueError:
try:
return float(s)
except ValueError:
return s
def get_sync_path(fname):
"""
Return GDATADIR or SYNCDIR path from sync_output_to_gdata.sh or sync_data.sh
fname: file path to sync_output_to_gdata.sh or sync_data.sh etc
output: directory string
"""
dir = None # default return value
searchstrings = ['GDATADIR=', 'SYNCDIR=']
with open(fname, 'r') as infile:
for line in infile:
# NB: subsequent matches will replace earlier ones
for s in searchstrings:
splitline = line.split(s)
if len(splitline) == 2 and splitline[0].strip() == '':
dir_maybe = splitline[1].strip().rstrip('/')
if not(dir_maybe.startswith('/ERROR')):
dir = dir_maybe
return dir
def parse_pbs_log(fname):
"""
Return dict of items from parsed PBS log file.
fname: PBS log file path
output: dict
example of PBS log file content to parse:
qsub -q normal -P g40 -l walltime=12600 -l ncpus=2064 -l mem=8256GB -N minimal_01deg_j -l wd -j n -v PAYU_MODULENAME=payu/dev,PYTHONPATH=/projects/access/apps/mnctools/0.1/lib:/projects/access/apps/mnctools/0.1/lib:/projects/access/apps/mnctools/0.1/lib:/projects/v45/apps/payu/dev/lib:/projects/access/apps/mnctools/0.1/lib:/projects/v45/python,PAYU_CURRENT_RUN=137,PAYU_MODULEPATH=/projects/v45/modules,PAYU_N_RUNS=10 -lother=hyperthread -W umask=027 /projects/v45/apps/payu/dev/bin/payu-run
...
git commit -am "2018-10-08 22:32:26: Run 137"
TODO: Check if commit is unchanged
======================================================================================
Resource Usage on 2018-10-08 22:32:36:
Job Id: 949753.r-man2
Project: x77
Exit Status: 0
Service Units: 20440.40
NCPUs Requested: 5968 NCPUs Used: 5968
CPU Time Used: 20196:31:07
Memory Requested: 11.66TB Memory Used: 2.61TB
Walltime requested: 05:00:00 Walltime Used: 03:25:30
JobFS requested: 36.43GB JobFS used: 1.0KB
======================================================================================
"""
def getproject(l):
return l[1]
def getpayuversion(l):
return os.path.dirname(os.path.dirname(l[-1]))
# return os.path.dirname([s for s in l[0].split(',')[0].split(':')
# if s.find('payu') > -1][0])
def getpayu(l):
return l[0].split(',')[0]
def getpayuint(l):
return int(l[0].split(',')[0])
def getrun(l):
return int(l[4].rstrip('"'))
def getjob(l):
return int(l[1].split('.')[0])
def getint(l):
return int(l[1])
def getfloat(l):
return float(l[1])
def getsec(l): # convert hh:mm:ss to sec
return sum(x * int(t) for x, t in zip([3600, 60, 1], l[1].split(':')))
def getdatetime(l): # BUG: doesn't include time zone (can't tell if we're on daylight savings time)
return l[0]+'T'+l[1].rstrip(':')
def getbytes(l): # assumes PBS log info uses binary prefixes - TODO: check
s = l[1]
ns = s.strip('BKMGT') # numerical part
units = {'B': 1,
'KB': 2**10,
'MB': 2**20,
'GB': 2**30,
'TB': 2**40}
return int(round(float(ns)*units[s[len(ns):]]))
search_items = { # keys are strings to search for; items are functions to apply to whitespace-delimited list of strings following key
'PAYU_CURRENT_RUN': getpayuversion, # gets path to payu; PAYU_CURRENT_RUN is redundant as this is obtained below from git commit message
# 'PAYU_CURRENT_RUN=': getpayuint, # BUG: misses some runs
'PAYU_MODULENAME=': getpayu,
'PAYU_MODULEPATH=': getpayu,
'PAYU_PATH=': getpayu,
'LD_LIBRARY_PATH=': getpayu,
'PAYU_N_RUNS=': getpayuint,
'PYTHONPATH=': getpayu,
# BUG: git commit will be missing if runlog: False in config.yaml - so we won't get run number!
'git commit': getrun, # instead of using PAYU_CURRENT_RUN; NB: run with this number might have failed - check Exit Status
'Resource Usage on': getdatetime,
'Job Id': getjob,
'Project': getproject,
'Exit Status': getint,
'Service Units': getfloat,
'NCPUs Requested': getint,
'NCPUs Used': getint,
'CPU Time Used': getsec,
'Memory Requested': getbytes,
'Memory Used': getbytes,
'Walltime requested': getsec,
'Walltime Used': getsec,
'JobFS requested': getbytes,
'JobFS used': getbytes}
parsed_items = search_items.fromkeys(search_items, None) # set defaults to None
with open(fname, 'r') as infile:
for line in infile:
# NB: subsequent matches will replace earlier ones
# NB: processes only the first match of each line
for key, op in search_items.items():
try:
parsed_items[key] = op(line.split(key)[1].split())
except IndexError: # key not present in this line
continue
# change to more self-explanatory keys
rename_keys = {'PAYU_CURRENT_RUN': 'payu version',
# 'PAYU_CURRENT_RUN=': 'Run number',
'git commit': 'Run number',
'Memory Requested': 'Memory Requested (bytes)',
'Memory Used': 'Memory Used (bytes)',
'Walltime requested': 'Walltime Requested (s)',
'Walltime Used': 'Walltime Used (s)',
'Resource Usage on': 'Run completion date'}
for oldkey, newkey in rename_keys.items():
parsed_items[newkey] = parsed_items.pop(oldkey)
if parsed_items['Memory Requested (bytes)'] is None:
parsed_items['Memory Requested (Gb)'] = None
else:
parsed_items['Memory Requested (Gb)'] = parsed_items['Memory Requested (bytes)']/2**30
if parsed_items['Memory Used (bytes)'] is None:
parsed_items['Memory Used (Gb)'] = None
else:
parsed_items['Memory Used (Gb)'] = parsed_items['Memory Used (bytes)']/2**30
if parsed_items['Walltime Requested (s)'] is None:
parsed_items['Walltime Requested (hr)'] = None
else:
parsed_items['Walltime Requested (hr)'] = parsed_items['Walltime Requested (s)']/3600
if parsed_items['Walltime Used (s)'] is None:
parsed_items['Walltime Used (hr)'] = None
else:
parsed_items['Walltime Used (hr)'] = parsed_items['Walltime Used (s)']/3600
try:
parsed_items['Timeout'] = parsed_items['Walltime Used (s)'] > parsed_items['Walltime Requested (s)']
except:
parsed_items['Timeout'] = None
return parsed_items
def parse_git_log(basepath, datestr):
"""
Return dict of items from git log from most recent commit before a given date.
basepath: base directory path string
datestr: date string
output: dict
"""
# possible BUG: what time zone flag should be use? local is problematic if run from overseas....?
# use Popen for backwards-compatiblity with Python <2.7
# pretty format is tab-delimited (%x09)
try:
p = subprocess.Popen('cd ' + basepath
+ ' && git log -1 '
+ '--pretty="format:%H%x09%an%x09%ai%x09%B" '
+ '`git rev-list -1 --date=local --before="'
+ datestr + '" HEAD`', # TODO: add 1 sec to datestr so we don't rely on the delay between git commit and PBS log?
stdout=subprocess.PIPE, shell=True)
log = p.communicate()[0].decode('ascii').split('\t')
# log = p.communicate()[0].decode('ascii').encode('ascii').split('\t') # for python 2.6
log[3] = log[3].strip() # strip whitespace from message
except:
log = [None]*4 # default values in case there's no .git, e.g. if runlog: False in config.yaml
parsed_items = dict()
parsed_items['Commit'] = log[0]
parsed_items['Author'] = log[1]
parsed_items['Date'] = log[2]
parsed_items['Message'] = log[3]
return parsed_items
def parse_mom_time_stamp(paths):
"""
Return dict of items from parsed MOM time_stamp.out.
paths: list of base paths
output: dict parsed from first matching time_stamp.out in paths
example of MOM time_stamp.out content to parse:
2001 9 1 0 0 0 Sep
2001 11 1 0 0 0 Nov
"""
parsed_items = dict()
keys = ['Model start time', 'Model end time']
for path in paths:
fname = os.path.join(path, 'ocean/time_stamp.out')
if os.path.isfile(fname):
parsed_items['Time stamp file'] = fname
with open(fname, 'r') as infile:
for key in keys:
line = infile.readline()
parsed_items[key] = datetime.datetime(
*list(map(int, line.split()[0:-1]))).isoformat()
break
try:
d1 = dateutil.parser.parse(parsed_items[keys[0]])
d2 = dateutil.parser.parse(parsed_items[keys[1]])
duration = d2-d1 # BUG: presumably assumes Gregorian calendar with leap years and time in UTC
parsed_items['Model run length (s)'] = duration.total_seconds()
parsed_items['Model run length (days)'] = duration.total_seconds()/3600/24
except KeyError:
pass
return parsed_items
def parse_yaml(paths, filename):
"""
Return dict of items from parsed yaml file.
paths: list of base paths
filename: yaml filename to attempt to read from base paths
output: dict parsed from first matching filename in paths
"""
parsed_items = dict()
for path in paths:
fpath = os.path.join(path, filename)
if os.path.isfile(fpath):
with open(fpath, 'r') as infile:
# Need to use load_all to handle manifests. Only return final part.
parsed_items = list(yaml.load_all(infile, Loader=yaml.FullLoader))[-1]
break
return parsed_items
def parse_accessom2_out(paths):
"""
Return dict of items from parsed access-om2.out.
paths: list of base paths
output: dict of timing names, with dict of statistics
NB: output may also contain bad data from intermingled CICE output.
"""
parsed_items = dict()
for path in paths:
fname = os.path.join(path, 'access-om2.out')
if os.path.isfile(fname):
with open(fname, 'r') as infile:
for l in infile:
if l.startswith('Tabulating mpp_clock statistics'):
break
for l in infile:
if l.startswith(' tmin'):
break
keys = l.split()
for l in infile:
if l.startswith(' MPP_STACK high water mark='):
break
name = l[0:32].strip() # relies on name being cropped at 32 chars
vals = [num(n) for n in l[32:].split()]
parsed_items[name] = dict(zip(keys, vals))
break
return parsed_items
def parse_ice_diag_d(paths):
"""
Return dict of cice info from ice/ice_diag.d.
paths: list of base paths
output: dict
"""
# this is pretty rough-and-ready, e.g. repeated entries end up containing the final value
parsed_items = dict()
for path in paths:
fname = os.path.join(path, 'ice/ice_diag.d')
if os.path.isfile(fname):
with open(fname, 'r') as infile:
for l in infile:
if l.startswith('Timing information:'):
break # handle timing data with parse_cice_timing
try:
key = l.split('=')[0].strip()
val = num(l.split('=')[1].strip())
parsed_items[key] = val
except:
try:
key = l.split(':')[0].strip()
val = num(l.split(':')[1].strip())
parsed_items[key] = val
except:
pass
break
if 'Block size: nx_block' in parsed_items:
parsed_items['nx_block'] = parsed_items['Block size: nx_block']
# NB: in ice_blocks.F90
# nx_block = block_size_x + 2*nghost, &! x,y dir including ghost
# ny_block = block_size_y + 2*nghost ! cells
if 'Number of ghost cells' in parsed_items:
if 'nx_block' in parsed_items:
parsed_items['block_size_x'] = parsed_items['nx_block'] - 2*parsed_items['Number of ghost cells']
if 'ny_block' in parsed_items:
parsed_items['block_size_y'] = parsed_items['ny_block'] - 2*parsed_items['Number of ghost cells']
parsed_items['timing'] = parse_cice_timing(paths)
return parsed_items
def parse_cice_timing(paths):
"""
Return dict of cice timing info from ice/ice_diag.d.
paths: list of base paths
output: dict of timing names, with dict of statistics
"""
# sample to parse:
# Timing information:
#
# Timer 1: Total 10894.88 seconds
# Timer stats (node): min = 10894.69 seconds
# max = 10894.88 seconds
# mean= 10894.70 seconds
# Timer stats(block): min = 0.00 seconds
# max = 0.00 seconds
# mean= 0.00 seconds
# Timer 2: TimeLoop 10802.50 seconds
# Timer stats (node): min = 10802.33 seconds
# max = 10802.50 seconds
# mean= 10802.33 seconds
# Timer stats(block): min = 0.00 seconds
# max = 0.00 seconds
# mean= 0.00 seconds
parsed_items = dict()
for path in paths:
fname = os.path.join(path, 'ice/ice_diag.d')
if os.path.isfile(fname):
with open(fname, 'r') as infile:
for l in infile:
if l.startswith('Timing information:'):
break
for l in infile:
if l.startswith('Timer'): # ignore time is it it node max
timerkey = ' '.join(l[0:21].split()[2:])
parsed_items[timerkey] = dict()
else:
if l.startswith(' Timer'):
typekey = l.split('(')[-1].split(')')[0]
parsed_items[timerkey][typekey] = dict()
try:
key = l.split('=')[0].split()[-1]
val = num(l.split()[-2])
parsed_items[timerkey][typekey][key] = val
except:
pass
break
return parsed_items
def parse_nml(paths):
"""
Return dict of items from parsed namelists.
paths: list of base paths to parse for namelists
output: dict
"""
parsed_items = dict()
parsed_items['accessom2.nml'] = None # default value for non-YATM run
for path in paths:
fnames = [os.path.join(path, 'accessom2.nml')]\
+ glob.glob(os.path.join(path, '*/*.nml'))
for fname in fnames:
if os.path.isfile(fname): # no accessom2.nml for non-YATM run
parsed_items[fname.split(path)[1].strip('/')] \
= f90nml.read(fname)
return parsed_items
def git_diff(basepath, sha1, sha2):
"""
Return dict of git-tracked differences between two commits.
basepath: base directory path string
sha1, sha2: strings; sha1 should be earlier than or same as sha2
"""
try:
p = subprocess.Popen('cd ' + basepath
+ ' && git diff --name-only ' + sha1 + ' ' + sha2,
stdout=subprocess.PIPE, shell=True)
c = ', '.join(
p.communicate()[0].decode('ascii').split())
p = subprocess.Popen('cd ' + basepath
+ ' && git log --ancestry-path --pretty="%B\%x09" '
+ sha1 + '..' + sha2,
stdout=subprocess.PIPE, shell=True)
m = [s.strip('\n\\')
for s in p.communicate()[0].decode('ascii').split('\t')][0:-1]
m.reverse() # put in chronological order
if len(m) == 0:
m = None
except:
c = None
m = None
parsed_items = dict()
parsed_items['Changed files'] = c
parsed_items['Messages'] = m # NB: will be None if there's no direct ancestry path from sha1 to sha2)
return parsed_items
def dictget(d, l):
"""
Lookup item in nested dict using a list of keys, or None if non-existent
d: nested dict
l: list of keys, or None
"""
try:
dl0 = d[l[0]]
except (KeyError, TypeError):
return None
if len(l) == 1:
return dl0
return dictget(dl0, l[1:])
def keylists(d):
"""
Return list of key lists to every leaf node in a nested dict.
Each key list can be used as an argument to dictget.
d: nested dict
"""
l = []
for k, v in d.items():
if isinstance(v, dict):
sublists = keylists(v)
for sli in sublists:
l.append([k]+sli)
else:
l.append([k])
return l
def keylistssuperset(d):
"""
Apply keylists to every value at the top level of input dict d,
and return a list containing one instance of every key list found.
Each key list can be used as an argument to dictget.
d: nested dict whose values are to be supplied to keylists
"""
all = set()
for v in d.values():
all.update(['\b'.join(l) for l in keylists(v)])
return [s.split('\b') for s in all]
def tryfunc(func, arg):
"""
Return func(arg) or None if there's an exception.
"""
try:
return func(arg)
except:
return None
def run_summary(basepath=os.getcwd(), outfile=None, list_available=False,
dump_all=False, show_fails=False, outfile_syncdir=False,
no_header=False, no_stats=False):
"""
Generate run summary
"""
basepath = os.path.abspath(basepath)
archive_path = os.path.realpath(os.path.join(basepath, 'archive'))
print('Generating run summary of ' + basepath, end='')
# get jobname from config.yaml -- NB: we assume this is the same for all jobs
with open(os.path.join(basepath, 'config.yaml'), 'r') as infile:
configyaml = yaml.load(infile, Loader=yaml.FullLoader)
jobname = configyaml.get('jobname')
sync_script = configyaml.get('postscript')
if sync_script:
sync_path = get_sync_path(os.path.join(basepath, sync_script))
else:
sync_path = None
if outfile is None:
if outfile_syncdir and sync_path:
outfile = 'run_summary_' + sync_path.strip(os.sep).replace(os.sep, '_') + '.csv'
else:
outfile = 'run_summary_' + basepath.strip(os.sep).replace(os.sep, '_') + '.csv'
# if show_fails:
# outfile = os.path.splitext(outfile)[0]+'_fails.csv'
try:
p = subprocess.Popen('cd ' + basepath
+ ' && git rev-parse --abbrev-ref HEAD',
stdout=subprocess.PIPE, shell=True)
git_branch = p.communicate()[0].decode('ascii').strip()
except:
git_branch = None
# get data from all PBS job logs
run_data = dict()
# NB: match jobname[:15] because in some cases the pbs log files use a shortened version of the jobname in config.yaml
# e.g. see /home/157/amh157/payu/025deg_jra55_ryf8485
# NB: logs in archive may be duplicated in sync_path, in which case the latter is used
logfiles = glob.glob(os.path.join(archive_path, 'pbs_logs', jobname[:15] + '*.o*'))\
+ glob.glob(os.path.join(basepath, jobname[:15] + '*.o*'))
if sync_path:
logfiles += glob.glob(os.path.join(sync_path, 'pbs_logs', jobname[:15] + '*.o*'))
logfiles = [f for f in logfiles if '_c.o' not in f] # exclude collation files *_c.o*
for f in logfiles:
print('.', end='', flush=True)
jobid = int(f.split('.o')[1])
run_data[jobid] = dict()
run_data[jobid]['PBS log'] = parse_pbs_log(f)
run_data[jobid]['PBS log']['PBS log file'] = f
# fudge: these paths might actually apply only to the latest job
run_data[jobid]['paths'] = dict()
run_data[jobid]['paths']['Control path'] = basepath
run_data[jobid]['paths']['Sync path'] = sync_path
run_data[jobid]['paths']['Archive path'] = archive_path
run_data[jobid]['storage'] = dict()
# get run data for all jobs
for jobid in run_data:
print('.', end='', flush=True)
pbs = run_data[jobid]['PBS log']
date = pbs['Run completion date'] # BUG: would be better to have time when run began, including time zone
if date is not None:
run_data[jobid]['git log'] = parse_git_log(basepath, date)
# BUG: assumes no commits between run start and end
# BUG: assumes the time zones match - no timezone specified in date - what does git assume? UTC?
if pbs['Exit Status'] == 0: # output dir belongs to this job only if Exit Status = 0
outdir = 'output' + str(pbs['Run number']).zfill(3)
restartdir = 'restart' + str(pbs['Run number']).zfill(3)
paths = []
if sync_path:
sync_output_path = os.path.join(sync_path, outdir)
if os.path.isdir(sync_output_path):
paths += [sync_output_path]
run_data[jobid]['paths']['Sync output path'] =\
sync_output_path
sync_restart_path = os.path.join(sync_path, restartdir)
if os.path.isdir(sync_restart_path):
run_data[jobid]['paths']['Sync restart path'] =\
sync_restart_path
archive_output_path = os.path.join(archive_path, outdir)
if os.path.isdir(archive_output_path):
paths += [archive_output_path]
run_data[jobid]['paths']['Archive output path'] =\
archive_output_path
archive_restart_path = os.path.join(archive_path, restartdir)
if os.path.isdir(archive_restart_path):
run_data[jobid]['paths']['Archive restart path'] =\
archive_restart_path
# 'Sync output path' if it exists, otherwise 'Archive output path'
run_data[jobid]['paths']['Output path'] =\
run_data[jobid]['paths'].get('Sync output path') or\
run_data[jobid]['paths'].get('Archive output path')
# 'Sync restart path' if it exists, otherwise 'Archive restart path'
run_data[jobid]['paths']['Restart path'] =\
run_data[jobid]['paths'].get('Sync restart path') or\
run_data[jobid]['paths'].get('Archive restart path')
# find GiB for output and restart
for k in ['Output path', 'Restart path']:
path = run_data[jobid]['paths'][k]
if path:
p = subprocess.Popen('du -bs ' + path,
stdout=subprocess.PIPE, shell=True)
ret = p.communicate()[0].decode('ascii')
bytes = int(ret.split()[0])
run_data[jobid]['storage'][k + ' GiB'] = \
round(bytes/1073741824, 3)
run_data[jobid]['MOM_time_stamp.out'] = parse_mom_time_stamp(paths)
run_data[jobid]['namelists'] = parse_nml(paths)
run_data[jobid]['access-om2.out'] = parse_accessom2_out(paths)
run_data[jobid]['ice_diag.d'] = parse_ice_diag_d(paths)
run_data[jobid]['metadata.yaml'] = parse_yaml([basepath, sync_path], 'metadata.yaml')
for fn in ['config.yaml', 'env.yaml', 'job.yaml',
'manifests/exe.yaml', 'manifests/input.yaml', 'manifests/restart.yaml']:
run_data[jobid][fn] = parse_yaml(paths, fn)
all_run_data = copy.deepcopy(run_data) # all_run_data includes failed jobs
if show_fails:
# remove all jobs that have no PBS info in log file
for jobid in all_run_data:
if all_run_data[jobid]['PBS log']['Run completion date'] is None:
del run_data[jobid]
# (jobid, run completion date) tuples sorted by run completion date
jobid_run_tuples = sorted([(k, v['PBS log']['Run completion date'])
for (k, v) in run_data.items()],
key=lambda t: t[1])
if len(jobid_run_tuples) == 0:
print('\nAborting: no jobs?')
return
# jobid keys into run_data sorted by run completion date
sortedjobids = [k[0] for k in jobid_run_tuples]
else:
# remove failed jobs from run_data
for jobid in all_run_data:
print('.', end='', flush=True)
pbs = all_run_data[jobid]['PBS log']
date = pbs['Run completion date']
if date is None: # no PBS info in log file
del run_data[jobid]
elif pbs['Run number'] is None: # not a model run log file
del run_data[jobid]
elif pbs['Exit Status'] != 0: # output dir belongs to this job only if Exit Status = 0
del run_data[jobid]
elif len(run_data[jobid]['config.yaml']) == 0: # output dir missing
del run_data[jobid]
# (jobid, run number) tuples sorted by run number - re-done below
jobid_run_tuples = sorted([(k, v['PBS log']['Run number'])
for (k, v) in run_data.items()],
key=lambda t: t[1])
if len(jobid_run_tuples) == 0:
print('\nAborting: no successful jobs?')
return
# Remove the older jobid if run number is duplicated - assume run was re-done
# (check by date rather than jobid, since jobid sometimes rolls over)
prev_jobid_run = jobid_run_tuples[0]
for jobid_run in jobid_run_tuples[1:]:
if jobid_run[1] == prev_jobid_run[1]: # duplicated run number
if run_data[jobid_run[0]]['PBS log']['Run completion date']\
> run_data[prev_jobid_run[0]]['PBS log']['Run completion date']:
del run_data[prev_jobid_run[0]]
prev_jobid_run = jobid_run
else:
del run_data[jobid_run[0]]
else:
prev_jobid_run = jobid_run
# re-do (jobid, run number) tuples sorted by run number
jobid_run_tuples = sorted([(k, v['PBS log']['Run number'])
for (k, v) in run_data.items()],
key=lambda t: t[1])
if len(jobid_run_tuples) == 0:
print('\nAborting: no successful jobs?')
return
# jobid keys into run_data sorted by run number
sortedjobids = [k[0] for k in jobid_run_tuples]
# allow referencing by submodel name as well as list index
for jobid in run_data:
run_data[jobid]['config.yaml']['submodels-by-name'] = dict()
for sm in run_data[jobid]['config.yaml']['submodels']:
run_data[jobid]['config.yaml']['submodels-by-name'][sm['name']] = sm
# make a 'timing' entry to contain model timestep and run length for both MATM and YATM runs
# run length is [years, months, days, seconds] to accommodate both MATM and YATM
prevjobid = -1
for jobid in sortedjobids:
r = run_data[jobid]
timing = dict()
if r['namelists']['accessom2.nml'] is None: # non-YATM run
timing['Timestep'] = r['config.yaml']['submodels'][1]['timestep'] # MOM timestep
rt = r['config.yaml']['calendar']['runtime']
timing['Run length'] = [rt['years'], rt['months'], rt['days'], 0] # insert 0 seconds
else:
timing['Timestep'] = r['namelists']['accessom2.nml']['accessom2_nml']['ice_ocean_timestep']
rp = r['namelists']['accessom2.nml']['date_manager_nml']['restart_period']
timing['Run length'] = rp[0:2] + [0] + [rp[2]] # insert 0 days
yrs = r['MOM_time_stamp.out']['Model run length (days)']/365.25 # FUDGE: assumes 365.25-day year
timing['SU per model year'] = r['PBS log']['Service Units']/yrs
timing['Walltime (hr) per model year'] = r['PBS log']['Walltime Used (hr)']/yrs
storagekeys = list(r['storage'].keys())
for k in storagekeys:
timing[k + ' per model year'] = round(r['storage'][k]/yrs, 3)
if prevjobid >= 0: # also record time including wait between runs
d1 = dateutil.parser.parse(run_data[prevjobid]['PBS log']['Run completion date'])
d2 = dateutil.parser.parse(r['PBS log']['Run completion date'])
tot_walltime = (d2-d1).total_seconds()/3600
timing['Walltime (hr) between this completion and previous completion'] = tot_walltime
timing['Wait (hr) between this run and previous'] = tot_walltime - r['PBS log']['Walltime Used (hr)']
timing['SU per calendar day'] = r['PBS log']['Service Units']/tot_walltime*24
timing['Model years per calendar day'] = yrs/tot_walltime*24
for k in storagekeys:
timing[k + ' per calendar day'] = round(r['storage'][k]/tot_walltime*24, 3)
r['timing'] = timing
prevjobid = jobid
# include changes in all git commits since previous run
for i, jobid in enumerate(sortedjobids):
print('.', end='', flush=True)
run_data[jobid]['git diff'] = \
git_diff(basepath,
run_data[sortedjobids[max(i-1, 0)]]['git log']['Commit'],
run_data[jobid]['git log']['Commit'])
# count failed jobs prior to each successful run
# BUG: always have zero count between two successful runs straddling a jobid rollover
# BUG: first run also counts all fails after a rollover
prevjobid = -1
for jobid in sortedjobids:
c = [e for e in all_run_data.keys() if e > prevjobid and e < jobid
and e not in run_data]
c.sort()
run_data[jobid]['PBS log']['Failed previous jobids'] = c
run_data[jobid]['PBS log']['Failed previous jobs'] = len(c)
prevjobid = jobid
if list_available:
print('\nAvailable data which can be tabulated if added to output_format')
print('(but you may need to edit some keys to ensure uniqueness):')
keylist = []
for k in keylistssuperset(run_data):
keylist.append((k[-1], "['" + "', '".join(k) + "']"))
keylist.sort(key = lambda x: x[1])
maxkeywidth = max([len(k[0]) for k in keylist])
for k in keylist:
print(" ('" + k[0] + "', " + " "*(maxkeywidth-len(k[0])) + k[1] + "),")
if dump_all:
dumpoutfile = os.path.splitext(outfile)[0]+'.yaml'
print('\nWriting', dumpoutfile)
with open(dumpoutfile, 'w') as outf:
yaml.dump(run_data, outf, default_flow_style=False)
###########################################################################
# Specify the output format here.
###########################################################################
# output_format is a OrderedDict of (key, value) tuples, one for each column.
# keys are column headers (arbitrary but must be unique)
# values are lists of keys into run_data (omitting job id)
# "run_summary.py --list" will list all available data you can add here
# (but you may need to edit some keys to ensure uniqueness)
output_format = OrderedDict([
('Run', ['PBS log', 'Run number']),
('Run start', ['MOM_time_stamp.out', 'Model start time']),
('Run end', ['MOM_time_stamp.out', 'Model end time']),
('Run length (y, m, d, s)', ['timing', 'Run length']),
('Run length (days)', ['MOM_time_stamp.out', 'Model run length (days)']),
('Control directory', ['paths', 'Control path']),
# ('Archive directory', ['paths', 'Archive path']),
# ('Sync directory', ['paths', 'Sync path']),
('Output directory', ['paths', 'Output path']),
('Output GiB', ['storage', 'Output path GiB']),
('Restart directory', ['paths', 'Restart path']),
('Restart GiB', ['storage', 'Restart path GiB']),
('Run by', ['git log', 'Author']),
('Run completion date', ['PBS log', 'Run completion date']),
('Job Id', ['PBS log', 'Job Id']),
('Failed jobs', ['PBS log', 'Failed previous jobs']),
('Failed jobids', ['PBS log', 'Failed previous jobids']),
('Queue', ['config.yaml', 'queue']),
('Service Units', ['PBS log', 'Service Units']),
('Walltime Used (hr)', ['PBS log', 'Walltime Used (hr)']),
('SU per model year', ['timing', 'SU per model year']),
('Walltime (hr) per model year', ['timing', 'Walltime (hr) per model year']),
('Wait (hr) between runs', ['timing', 'Wait (hr) between this run and previous']),
('SU per calendar day', ['timing', 'SU per calendar day']),
('Model years per calendar day', ['timing', 'Model years per calendar day']),
('Memory Used (Gb)', ['PBS log', 'Memory Used (Gb)']),
('NCPUs Used', ['PBS log', 'NCPUs Used']),
('MOM NCPUs', ['config.yaml', 'submodels-by-name', 'ocean', 'ncpus']),
('CICE NCPUs', ['config.yaml', 'submodels-by-name', 'ice', 'ncpus']),
# ('Max Ocean diagnostics (s)', ['access-om2.out', '(Ocean diagnostics)', 'tmax']),
# ('Max Ocean diagnostics: tracer (s)', ['access-om2.out', '(Ocean diagnostics: tracer)', 'tmax']),
('Fraction of MOM runtime in oasis_recv', ['access-om2.out', 'oasis_recv', 'tfrac']),
('Max MOM wait for oasis_recv (s)', ['access-om2.out', 'oasis_recv', 'tmax']),
('Max CICE wait for coupler (s)', ['ice_diag.d', 'timing', 'waiting_o', 'node', 'max']),
('Max CICE I/O time (s)', ['ice_diag.d', 'timing', 'ReadWrite', 'node', 'max']),
('MOM tile layout', ['namelists', 'ocean/input.nml', 'ocean_model_nml', 'layout']),
('CICE tile distribution', ['namelists', 'ice/cice_in.nml', 'domain_nml', 'distribution_type']),
('CICE block_size_x', ['ice_diag.d', 'block_size_x']),
('CICE block_size_y', ['ice_diag.d', 'block_size_y']),
('Timestep (s)', ['timing', 'Timestep']),
('MOM barotropic split', ['namelists', 'ocean/input.nml', 'ocean_model_nml', 'barotropic_split']),
('CICE dynamic split (ndtd)', ['namelists', 'ice/cice_in.nml', 'setup_nml', 'ndtd']),
# ('ktherm', ['namelists', 'ice/cice_in.nml', 'thermo_nml', 'ktherm']),
# ('Common inputs', ['config.yaml', 'input']),
# ('Atmosphere executable', ['config.yaml', 'submodels-by-name', 'atmosphere', 'exe']),
# ('Atmosphere inputs', ['config.yaml', 'submodels-by-name', 'atmosphere', 'input']),
# ('MOM executable', ['config.yaml', 'submodels-by-name', 'ocean', 'exe']),
# ('MOM inputs', ['config.yaml', 'submodels-by-name', 'ocean', 'input']),
# ('CICE executable', ['config.yaml', 'submodels-by-name', 'ice', 'exe']),
# ('CICE inputs', ['config.yaml', 'submodels-by-name', 'ice', 'input']),
# ('Payu version', ['PBS log', 'payu version']),
('Git hash of run', ['git log', 'Commit']),
('Commit date', ['git log', 'Date']),
('Git-tracked file changes', ['git diff', 'Changed files']),
('Git log messages', ['git diff', 'Messages']),
])
SUdata = [dictget(run_data, [jobid] + ['PBS log', 'Service Units'])
for jobid in sortedjobids]
stats = OrderedDict([ # tuples: (label, function)
('Total', sum),
('Mean', np.mean),
('Median', np.median),
('Min', min),
('Max', max),
('Std dev', np.std),
('SU correlation', lambda x: np.corrcoef(x, SUdata)[0, 1]),
('SU slope', lambda x: np.polyfit(x, SUdata, 1)[0]),
('Dimensionless SU slope', lambda x: np.polyfit(x, SUdata, 1)[0]*np.mean(x)/np.mean(SUdata))
])
###########################################################################
if no_stats:
stats = OrderedDict([])
if show_fails:
# output crash-related info (redefines order of any keys already in output_format)
output_format_prefix = OrderedDict([
('Job Id', ['PBS log', 'Job Id']),
('Run completion date', ['PBS log', 'Run completion date']),
('Exit Status', ['PBS log', 'Exit Status']),
('Timeout', ['PBS log', 'Timeout']),
('Walltime Requested (hr)', ['PBS log', 'Walltime Requested (hr)']),
('Walltime Used (hr)', ['PBS log', 'Walltime Used (hr)']),
('qsub_flags', ['config.yaml', 'qsub_flags']),
])
output_format_prefix.update(output_format)
output_format = output_format_prefix
else:
# output all namelist changes
output_format_nmls = OrderedDict()
nmls_any_runs = set(run_data[list(run_data.keys())[0]]['namelists'].keys())
nmls_all_runs = nmls_any_runs
# avoid dict comprehension here to avoid python<2.7 syntax error
nmls_no_runs = dict([(k, True) for k in nmls_any_runs]) # True for namelists that are None for all runs
# nmls_no_runs = {k: True for k in nmls_any_runs} # True for namelists that are None for all runs
for jobid in run_data:
run_nmls = run_data[jobid]['namelists']
nmls_any_runs = set(run_nmls.keys()) | nmls_any_runs
nmls_all_runs = set(run_nmls.keys()) & nmls_all_runs
for nml in set(nmls_all_runs):
if run_nmls[nml] is None:
nmls_all_runs.remove(nml)
for nml in run_nmls:
newnone = (nml is None)
if nml in nmls_no_runs:
nmls_no_runs[nml] = nmls_no_runs[nml] and newnone
else:
nmls_no_runs.update({nml: newnone})
for nml in set(nmls_any_runs):
if nmls_no_runs[nml]:
nmls_any_runs.remove(nml)
# add every changed group/variable in nml files that exist in all runs
for nml in nmls_all_runs:
# avoid dict comprehension here to avoid python<2.7 syntax error
nmllistall = dict([(jobid,
copy.deepcopy(run_data[jobid]['namelists'][nml]))
for jobid in run_data])
# nmllistall = {jobid: copy.deepcopy(run_data[jobid]['namelists'][nml])
# for jobid in run_data}
groups = nmltab.superset(nmltab.nmldiff(nmllistall))
for group in groups:
for var in groups[group]:
ngv = [nml, group, var]
output_format_nmls.update(OrderedDict([
(' -> '.join(ngv), ['namelists'] + ngv)]))
# add all group/variables in nml files that exist in only some runs
for nml in nmls_any_runs - nmls_all_runs:
nmllistall = dict()
for jobid in run_data:
if nml in run_data[jobid]['namelists']:
if run_data[jobid]['namelists'][nml] is not None:
nmllistall.update({jobid:
copy.deepcopy(run_data[jobid]['namelists'][nml])})
groups = nmltab.superset(nmllistall)
for group in groups:
for var in groups[group]:
ngv = [nml, group, var]
output_format_nmls.update(OrderedDict([
(' -> '.join(ngv), ['namelists'] + ngv)]))
# alphabetize
output_format_nmls = OrderedDict([(k, output_format_nmls[k])
for k in sorted(output_format_nmls.keys())])
# add output_format entries for every namelist variable that has changed in any run
output_format.update(output_format_nmls)
# output csv file according to output_format above
print('\nWriting', outfile)
if len(stats) > 0:
lhcol = [None]
else:
lhcol = [] # don't allow space for stats headings if we don't have any
with open(outfile, 'w', newline='') as csvfile:
csvw = csv.writer(csvfile, dialect='excel', lineterminator='\n')
if not no_header:
csvw.writerow(['Summary report generated by run_summary.py, https://github.com/aekiss/run_summary'])
csvw.writerow(['report generated:', datetime.datetime.now().replace(microsecond=0).astimezone().isoformat()])
csvw.writerow(['control directory path:', basepath, 'git branch:', git_branch])
csvw.writerow(['output path:', sync_path])
csvw.writerow(lhcol + list(output_format.keys())) # header
for jobid in sortedjobids: # output a row for each jobid
csvw.writerow(lhcol + [dictget(run_data, [jobid] + keylist) for keylist in output_format.values()])
if len(stats) > 0: