nimbus-eth1/scripts/block-import-stats.py

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Python
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import pandas as pd
import numpy as np
import matplotlib.pyplot as plt
import os
import argparse
plt.rcParams["figure.figsize"] = [40, 30]
from pandas.plotting import register_matplotlib_converters
register_matplotlib_converters()
def readStats(name: str, min_block_number: int):
df = pd.read_csv(name).convert_dtypes()
df = df[df.block_number >= min_block_number]
df.set_index("block_number", inplace=True)
df.time /= 1000000000
df.drop(columns=["gas"], inplace=True)
df["bps"] = df.blocks / df.time
df["tps"] = df.txs / df.time
return df
def prettySecs(s: float):
sa = abs(int(s))
ss = sa % 60
m = sa // 60 % 60
h = sa // (60 * 60)
sign = "" if s >= 0 else "-"
if h > 0:
return f"{sign}{h}h{m}m{ss}s"
elif m > 0:
return f"{sign}{m}m{ss}s"
else:
return f"{sign}{ss}s"
def formatBins(df: pd.DataFrame, bins: int):
if bins > 0:
bins = np.linspace(
df.block_number.iloc[0], df.block_number.iloc[-1], bins, dtype=int
)
return df.groupby(pd.cut(df["block_number"], bins), observed=True)
else:
return df
parser = argparse.ArgumentParser()
parser.add_argument("baseline")
parser.add_argument("contender")
parser.add_argument("--plot", action="store_true")
parser.add_argument(
"--bins",
default=10,
type=int,
help="Number of bins to group block ranges into in overview, 0=all rows",
)
parser.add_argument(
"--min-block-number",
default=500000,
type=int,
help="Skip block blocks below the given number",
)
args = parser.parse_args()
baseline = readStats(args.baseline, args.min_block_number)
contender = readStats(args.contender, args.min_block_number)
# Pick out the rows to match - a more sophisticated version of this would
# interpolate, perhaps - also, maybe should check for non-matching block/tx counts
df = baseline.merge(contender, on=("block_number", "blocks", "txs"))
df["bpsd"] = (df.bps_y - df.bps_x) / df.bps_x
df["tpsd"] = (df.tps_y - df.tps_x) / df.tps_x
df["timed"] = (df.time_y - df.time_x) / df.time_x
df.reset_index(inplace=True)
if args.plot:
plt.rcParams["axes.grid"] = True
fig = plt.figure()
bps = fig.add_subplot(2, 2, 1, title="Blocks per second (more is better)")
bpsd = fig.add_subplot(2, 2, 2, title="Difference (>0 is better)")
tps = fig.add_subplot(2, 2, 3, title="Transactions per second (more is better)")
tpsd = fig.add_subplot(2, 2, 4, title="Difference (>0 is better)")
bps.plot(df.block_number, df.bps_x.rolling(3).mean(), label="baseline")
bps.plot(df.block_number, df.bps_y.rolling(3).mean(), label="contender")
bpsd.plot(df.block_number, df.bpsd.rolling(3).mean())
tps.plot(df.block_number, df.tps_x.rolling(3).mean(), label="baseline")
tps.plot(df.block_number, df.tps_y.rolling(3).mean(), label="contender")
tpsd.plot(df.block_number, df.tpsd.rolling(3).mean())
bps.legend()
tps.legend()
fig.subplots_adjust(bottom=0.05, right=0.95, top=0.95, left=0.05)
plt.show()
print(f"{os.path.basename(args.baseline)} vs {os.path.basename(args.contender)}")
print(
formatBins(df, args.bins)
.agg(
dict.fromkeys(
["bps_x", "bps_y", "tps_x", "tps_y", "bpsd", "tpsd", "timed"], "mean"
),
)
.to_string(
formatters=dict(
dict.fromkeys(["bpsd", "tpsd", "timed"], "{:,.2%}".format),
**dict.fromkeys(["bps_x", "bps_y", "tps_x"], "{:,.2f}".format),
)
)
)
print(
f"\nblocks: {df.blocks.sum()}, baseline: {prettySecs(df.time_x.sum())}, contender: {prettySecs(df.time_y.sum())}"
)
print(f"bpsd (mean): {df.bpsd.mean():.2%}")
print(f"tpsd (mean): {df.tpsd.mean():.2%}")
print(
f"Time (sum): {prettySecs(df.time_y.sum()-df.time_x.sum())}, {df.timed.mean():.2%}"
)
print()
print(
"bpsd = blocks per sec diff (+), tpsd = txs per sec diff, timed = time to process diff (-)"
)
print("+ = more is better, - = less is better")