NIRVANALAN
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"""
Logger copied from OpenAI baselines to avoid extra RL-based dependencies:
https://github.com/openai/baselines/blob/ea25b9e8b234e6ee1bca43083f8f3cf974143998/baselines/logger.py
"""
import os
import sys
import shutil
import os.path as osp
import json
import time
import datetime
import tempfile
import warnings
from collections import defaultdict
from contextlib import contextmanager
DEBUG = 10
INFO = 20
WARN = 30
ERROR = 40
DISABLED = 50
class KVWriter(object):
def writekvs(self, kvs):
raise NotImplementedError
class SeqWriter(object):
def writeseq(self, seq):
raise NotImplementedError
class HumanOutputFormat(KVWriter, SeqWriter):
def __init__(self, filename_or_file):
if isinstance(filename_or_file, str):
self.file = open(filename_or_file, "wt")
self.own_file = True
else:
assert hasattr(filename_or_file, "read"), (
"expected file or str, got %s" % filename_or_file
)
self.file = filename_or_file
self.own_file = False
def writekvs(self, kvs):
# Create strings for printing
key2str = {}
for (key, val) in sorted(kvs.items()):
if hasattr(val, "__float__"):
valstr = "%-8.3g" % val
else:
valstr = str(val)
key2str[self._truncate(key)] = self._truncate(valstr)
# Find max widths
if len(key2str) == 0:
print("WARNING: tried to write empty key-value dict")
return
else:
keywidth = max(map(len, key2str.keys()))
valwidth = max(map(len, key2str.values()))
# Write out the data
dashes = "-" * (keywidth + valwidth + 7)
lines = [dashes]
for (key, val) in sorted(key2str.items(), key=lambda kv: kv[0].lower()):
lines.append(
"| %s%s | %s%s |"
% (key, " " * (keywidth - len(key)), val, " " * (valwidth - len(val)))
)
lines.append(dashes)
self.file.write("\n".join(lines) + "\n")
# Flush the output to the file
self.file.flush()
def _truncate(self, s):
maxlen = 30
return s[: maxlen - 3] + "..." if len(s) > maxlen else s
def writeseq(self, seq):
seq = list(seq)
for (i, elem) in enumerate(seq):
self.file.write(elem)
if i < len(seq) - 1: # add space unless this is the last one
self.file.write(" ")
self.file.write("\n")
self.file.flush()
def close(self):
if self.own_file:
self.file.close()
class JSONOutputFormat(KVWriter):
def __init__(self, filename):
self.file = open(filename, "wt")
def writekvs(self, kvs):
for k, v in sorted(kvs.items()):
if hasattr(v, "dtype"):
kvs[k] = float(v)
self.file.write(json.dumps(kvs) + "\n")
self.file.flush()
def close(self):
self.file.close()
class CSVOutputFormat(KVWriter):
def __init__(self, filename):
self.file = open(filename, "w+t")
self.keys = []
self.sep = ","
def writekvs(self, kvs):
# Add our current row to the history
extra_keys = list(kvs.keys() - self.keys)
extra_keys.sort()
if extra_keys:
self.keys.extend(extra_keys)
self.file.seek(0)
lines = self.file.readlines()
self.file.seek(0)
for (i, k) in enumerate(self.keys):
if i > 0:
self.file.write(",")
self.file.write(k)
self.file.write("\n")
for line in lines[1:]:
self.file.write(line[:-1])
self.file.write(self.sep * len(extra_keys))
self.file.write("\n")
for (i, k) in enumerate(self.keys):
if i > 0:
self.file.write(",")
v = kvs.get(k)
if v is not None:
self.file.write(str(v))
self.file.write("\n")
self.file.flush()
def close(self):
self.file.close()
class TensorBoardOutputFormat(KVWriter):
"""
Dumps key/value pairs into TensorBoard's numeric format.
"""
def __init__(self, dir):
os.makedirs(dir, exist_ok=True)
self.dir = dir
self.step = 1
prefix = "events"
path = osp.join(osp.abspath(dir), prefix)
import tensorflow as tf
from tensorflow.python import pywrap_tensorflow
from tensorflow.core.util import event_pb2
from tensorflow.python.util import compat
self.tf = tf
self.event_pb2 = event_pb2
self.pywrap_tensorflow = pywrap_tensorflow
self.writer = pywrap_tensorflow.EventsWriter(compat.as_bytes(path))
def writekvs(self, kvs):
def summary_val(k, v):
kwargs = {"tag": k, "simple_value": float(v)}
return self.tf.Summary.Value(**kwargs)
summary = self.tf.Summary(value=[summary_val(k, v) for k, v in kvs.items()])
event = self.event_pb2.Event(wall_time=time.time(), summary=summary)
event.step = (
self.step
) # is there any reason why you'd want to specify the step?
self.writer.WriteEvent(event)
self.writer.Flush()
self.step += 1
def close(self):
if self.writer:
self.writer.Close()
self.writer = None
def make_output_format(format, ev_dir, log_suffix=""):
os.makedirs(ev_dir, exist_ok=True)
if format == "stdout":
return HumanOutputFormat(sys.stdout)
elif format == "log":
return HumanOutputFormat(osp.join(ev_dir, "log%s.txt" % log_suffix))
elif format == "json":
return JSONOutputFormat(osp.join(ev_dir, "progress%s.json" % log_suffix))
elif format == "csv":
return CSVOutputFormat(osp.join(ev_dir, "progress%s.csv" % log_suffix))
elif format == "tensorboard":
return TensorBoardOutputFormat(osp.join(ev_dir, "tb%s" % log_suffix))
else:
raise ValueError("Unknown format specified: %s" % (format,))
# ================================================================
# API
# ================================================================
def logkv(key, val):
"""
Log a value of some diagnostic
Call this once for each diagnostic quantity, each iteration
If called many times, last value will be used.
"""
get_current().logkv(key, val)
def logkv_mean(key, val):
"""
The same as logkv(), but if called many times, values averaged.
"""
get_current().logkv_mean(key, val)
def logkvs(d):
"""
Log a dictionary of key-value pairs
"""
for (k, v) in d.items():
logkv(k, v)
def dumpkvs():
"""
Write all of the diagnostics from the current iteration
"""
return get_current().dumpkvs()
def getkvs():
return get_current().name2val
def log(*args, level=INFO):
"""
Write the sequence of args, with no separators, to the console and output files (if you've configured an output file).
"""
get_current().log(*args, level=level)
def debug(*args):
log(*args, level=DEBUG)
def info(*args):
log(*args, level=INFO)
def warn(*args):
log(*args, level=WARN)
def error(*args):
log(*args, level=ERROR)
def set_level(level):
"""
Set logging threshold on current logger.
"""
get_current().set_level(level)
def set_comm(comm):
get_current().set_comm(comm)
def get_dir():
"""
Get directory that log files are being written to.
will be None if there is no output directory (i.e., if you didn't call start)
"""
return get_current().get_dir()
def get_tensorboard_writer():
"""get the tensorboard writer
"""
pass
record_tabular = logkv
dump_tabular = dumpkvs
@contextmanager
def profile_kv(scopename):
logkey = "wait_" + scopename
tstart = time.time()
try:
yield
finally:
get_current().name2val[logkey] += time.time() - tstart
def profile(n):
"""
Usage:
@profile("my_func")
def my_func(): code
"""
def decorator_with_name(func):
def func_wrapper(*args, **kwargs):
with profile_kv(n):
return func(*args, **kwargs)
return func_wrapper
return decorator_with_name
# ================================================================
# Backend
# ================================================================
def get_current():
if Logger.CURRENT is None:
_configure_default_logger()
return Logger.CURRENT
class Logger(object):
DEFAULT = None # A logger with no output files. (See right below class definition)
# So that you can still log to the terminal without setting up any output files
CURRENT = None # Current logger being used by the free functions above
def __init__(self, dir, output_formats, comm=None):
self.name2val = defaultdict(float) # values this iteration
self.name2cnt = defaultdict(int)
self.level = INFO
self.dir = dir
self.output_formats = output_formats
self.comm = comm
# Logging API, forwarded
# ----------------------------------------
def logkv(self, key, val):
self.name2val[key] = val
def logkv_mean(self, key, val):
oldval, cnt = self.name2val[key], self.name2cnt[key]
self.name2val[key] = oldval * cnt / (cnt + 1) + val / (cnt + 1)
self.name2cnt[key] = cnt + 1
def dumpkvs(self):
if self.comm is None:
d = self.name2val
else:
d = mpi_weighted_mean(
self.comm,
{
name: (val, self.name2cnt.get(name, 1))
for (name, val) in self.name2val.items()
},
)
if self.comm.rank != 0:
d["dummy"] = 1 # so we don't get a warning about empty dict
out = d.copy() # Return the dict for unit testing purposes
for fmt in self.output_formats:
if isinstance(fmt, KVWriter):
fmt.writekvs(d)
self.name2val.clear()
self.name2cnt.clear()
return out
def log(self, *args, level=INFO):
if self.level <= level:
self._do_log(args)
# Configuration
# ----------------------------------------
def set_level(self, level):
self.level = level
def set_comm(self, comm):
self.comm = comm
def get_dir(self):
return self.dir
def close(self):
for fmt in self.output_formats:
fmt.close()
# Misc
# ----------------------------------------
def _do_log(self, args):
for fmt in self.output_formats:
if isinstance(fmt, SeqWriter):
fmt.writeseq(map(str, args))
def get_rank_without_mpi_import():
# check environment variables here instead of importing mpi4py
# to avoid calling MPI_Init() when this module is imported
for varname in ["PMI_RANK", "OMPI_COMM_WORLD_RANK"]:
if varname in os.environ:
return int(os.environ[varname])
return 0
def mpi_weighted_mean(comm, local_name2valcount):
"""
Copied from: https://github.com/openai/baselines/blob/ea25b9e8b234e6ee1bca43083f8f3cf974143998/baselines/common/mpi_util.py#L110
Perform a weighted average over dicts that are each on a different node
Input: local_name2valcount: dict mapping key -> (value, count)
Returns: key -> mean
"""
all_name2valcount = comm.gather(local_name2valcount)
if comm.rank == 0:
name2sum = defaultdict(float)
name2count = defaultdict(float)
for n2vc in all_name2valcount:
for (name, (val, count)) in n2vc.items():
try:
val = float(val)
except ValueError:
if comm.rank == 0:
warnings.warn(
"WARNING: tried to compute mean on non-float {}={}".format(
name, val
)
)
else:
name2sum[name] += val * count
name2count[name] += count
return {name: name2sum[name] / name2count[name] for name in name2sum}
else:
return {}
def configure(dir=None, format_strs=None, comm=None, log_suffix=""):
"""
If comm is provided, average all numerical stats across that comm
"""
if dir is None:
dir = os.getenv("OPENAI_LOGDIR")
if dir is None:
dir = osp.join(
tempfile.gettempdir(),
datetime.datetime.now().strftime("openai-%Y-%m-%d-%H-%M-%S-%f"),
)
assert isinstance(dir, str)
dir = os.path.expanduser(dir)
os.makedirs(os.path.expanduser(dir), exist_ok=True)
rank = get_rank_without_mpi_import()
if rank > 0:
log_suffix = log_suffix + "-rank%03i" % rank
if format_strs is None:
if rank == 0:
format_strs = os.getenv("OPENAI_LOG_FORMAT", "stdout,log,csv").split(",")
else:
format_strs = os.getenv("OPENAI_LOG_FORMAT_MPI", "log").split(",")
format_strs = filter(None, format_strs)
output_formats = [make_output_format(f, dir, log_suffix) for f in format_strs]
Logger.CURRENT = Logger(dir=dir, output_formats=output_formats, comm=comm)
if output_formats:
log("Logging to %s" % dir)
def _configure_default_logger():
configure()
Logger.DEFAULT = Logger.CURRENT
def reset():
if Logger.CURRENT is not Logger.DEFAULT:
Logger.CURRENT.close()
Logger.CURRENT = Logger.DEFAULT
log("Reset logger")
@contextmanager
def scoped_configure(dir=None, format_strs=None, comm=None):
prevlogger = Logger.CURRENT
configure(dir=dir, format_strs=format_strs, comm=comm)
try:
yield
finally:
Logger.CURRENT.close()
Logger.CURRENT = prevlogger