mirror of
https://github.com/hasura/graphql-engine.git
synced 2024-12-24 07:52:14 +03:00
f8a7312a30
* Benchmark GraphQL queries using wrk * fix console assets dir * Store wrk parameters as well * Add details about storing results in Readme * Remove files in bench-wrk while computing server shasum * Instead of just getting maximum throughput per query per version, create plots using wrk2 for a given set of requests per second. The maximum throughput is used to see what values of requests per second are feasible. * Add id for version dropdown * Allow specifiying env and args for GraphQL Engine 1) Arguments defined after -- will be applied as arguments to Hasura GraphQL Engine 2) Script will also pass the environmental variables to Hasura GraphQL Engine instances Hasura GraphQL engine can be run with the given environmental variables and arguments as follows $ export HASURA_GRAPHQL_...=.... $ python3 hge_wrk_bench.py -- --hge_arg1 val1 --hge_arg2 val2 ... * Use matplotlib instead of plotly for figures * Show throughput graph also. It maybe useful in checking performance regression across versions * Support storing results in s3 Use --upload-root-uri 's3://bucket/path' to upload results inside the given path.When specified, the results will be uploaded to the bucket, including latencies, latency histogram, and the test setup info. The s3 credentials should be provided as given in AWS boto3 documentation. * Allow specifying a name for the test scenario * Fix open latency uri bug * Update wrk docker image * Keep ylim a little higher than maximum so that the throughput plot is clearly visible * Show throughput plots for multiple queries at the same time * 1) Adjust size of dropdowns 2) Make label for requests/sec invisible when plot type is throughput * 1) Adding boto3 to requirements.txt 2) Removing CPU Key print line 3) Adding info about the tests that will be run with wrk2 * Docker builder fo wrk-websocket-server * Make it optional to setup remote graphql-engine * Listen on all interfaces and enable ping thread * Add bench_scripts to wrk-websocket-server docker * Use 127.0.0.1 instead of 'localhost' to address local hge For some reason it seems wrk was hanging trying to resolve 'localhost'. ping was able to fine from the same container, so I'm not sure what the deal was. Probably some local misconfiguration on my machine, but maybe this change will also help others. * Store latency samples in subdirectory, server_shasum just once at start, additional docs * Add a note on running the benchmarks in the simplest way * Add a new section on how to run benchmarks on a new linux hosted instance Co-authored-by: Nizar Malangadan <nizar-m@users.noreply.github.com> Co-authored-by: Brandon Simmons <brandon.m.simmons@gmail.com> Co-authored-by: Karthikeyan Chinnakonda <karthikeyan@hasura.io> Co-authored-by: Brandon Simmons <brandon@hasura.io> Co-authored-by: Vamshi Surabhi <0x777@users.noreply.github.com>
517 lines
16 KiB
Python
Executable File
517 lines
16 KiB
Python
Executable File
#!/usr/bin/env python3
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# Avoid tkinter dependency
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import matplotlib
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matplotlib.use('agg')
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import dash
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from dash.dependencies import Input, Output, State
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import dash_core_components as dcc
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import dash_bootstrap_components as dbc
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import dash_html_components as html
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from urllib.request import urlopen
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import pandas as pd
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import json
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import numpy as np
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import matplotlib.pyplot as plt
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import matplotlib.patches as mpatches
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import matplotlib.ticker as ticker
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import seaborn as sns
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from io import BytesIO
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import sys
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import argparse
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import base64
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from urllib.parse import urlparse
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import boto3
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def as_pairs(l, pair_size=2):
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if len(l) < pair_size:
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return [l]
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else:
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return [l[0:pair_size]] + as_pairs(l[pair_size:], pair_size)
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def get_scenario_results(results, scenarios):
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out_results = []
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for snro in scenarios:
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def allowed_value(x):
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for k in snro:
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if x[k] != snro[k]:
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return False
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return True
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req_results = [x for x in results if allowed_value(x)]
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out_results.append((snro, req_results))
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return out_results
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def throughput_data(max_rps_results, scenarios):
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results = get_scenario_results(max_rps_results, scenarios)
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data = []
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for (snro, req_results) in results:
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ver_info = snro['version'] or snro['docker_image'].split(':')[1]
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if req_results:
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data.append({
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'version': ver_info,
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'query name': snro['query_name'],
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'max throughput': float(req_results[0]['max_rps'])
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})
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return pd.DataFrame(data)
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def throughput_figure(df):
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sns.set_style("whitegrid")
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fig, ax = plt.subplots(figsize=(14,6))
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uniq_versions = set(df['version'])
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if len(uniq_versions) >1:
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sns.lineplot(x='version', y='max throughput', hue='query name', data=df, ax=ax)
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else:
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sns.barplot(x='version', y='max throughput', hue='query name', data=df, ax=ax)
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ax.grid()
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ax.set(
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xlabel='Version/Docker image',
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ylabel='Throughput (req/s)'
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)
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ymax = round(max(df['max throughput'])*1.05)
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plt.ylim(0, ymax)
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out_fig = gen_plot_figure_data(plt)
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plt.close()
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return out_fig
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def gen_plot_figure_data(plt):
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with BytesIO() as out_img:
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plt.savefig(out_img, format='png', bbox_inches='tight', dpi=100)
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out_img.seek(0)
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encoded = base64.b64encode(out_img.read()).decode('ascii').replace('\n','')
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return "data:image/png;base64,{}".format(encoded)
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def uri_readlines(uri):
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print('Latency file:', uri)
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p = urlparse(uri)
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if p.scheme == 'file':
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return urlopen(uri).readlines()
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elif p.scheme == 's3':
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s3 = boto3.resource('s3')
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obj = s3.Object(bucket_name=p.netloc, key=p.path.lstrip('/'))
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with BytesIO() as data:
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obj.download_fileobj(data)
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return data.getvalue().splitlines()
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def violin_plot_data(latency_results, scenarios):
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y_label = 'latency (ms)'
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x_label = 'version'
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category_label = 'req/sec'
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data = []
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results = get_scenario_results(latency_results, scenarios)
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for (snro, req_results) in results:
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ver_info = snro['version'] or snro['docker_image'].split(':')[1]
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if req_results:
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latencies = uri_readlines(req_results[0]['latencies_uri'])
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for x in latencies:
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if isinstance(x, bytes):
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x = x.decode()
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val_ms = float(x)/1000.0
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data.append({
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y_label: val_ms,
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x_label: ver_info,
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category_label: snro['requests_per_sec']
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})
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return pd.DataFrame(data)
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def violin_plot_figure(df):
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y_label = 'latency (ms)'
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x_label = 'version'
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category_label = 'req/sec'
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sns.set_style("whitegrid")
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plt.figure(figsize=(14,6))
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# All points latency plot
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ax = sns.stripplot(
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x=x_label, y=y_label, hue=category_label,
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data=df, palette=sns.color_palette(["#AAAAAA"]),
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jitter=0.40, size=2.2, dodge=True)
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plt.setp(ax.collections, zorder=-1000)
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# Plot percentiles using boxplot whisker caps:
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percentiles = [(99.9, 'red'), (99, 'blue'), (95, 'green')]
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for pctl, color in percentiles:
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ax = sns.boxplot(
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x=x_label, y=y_label, hue=category_label, data=df,
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showfliers=False, showbox=False,
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# Showing bottom percentiles just seemed to add visual noise:
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whis=[0, pctl],
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capprops={'color': color, 'linewidth': 1},
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# hide all but cap:
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whiskerprops={'linewidth': 0}
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)
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# Keep boxplots from adding nonsense to legend:
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handles, _ = ax.get_legend_handles_labels()
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for h in handles:
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h.remove()
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# This will get overwritten; add back below:
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pctl_legend = plt.legend(
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title='Percentile markers', loc='upper left',
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handles=[
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mpatches.Patch(color=c, label=str(pctl)+"th")
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for pctl, c in percentiles
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] +
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[mpatches.Patch(color="black", label='median')]
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)
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# See: https://seaborn.pydata.org/generated/seaborn.violinplot.html
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sns.violinplot(
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x=x_label, y=y_label, hue=category_label, data=df, palette="Set1",
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scale_hue=True,
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# All violins get the same area (number of samples may differ):
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scale="area",
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# More granular violins:
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bw=.02,
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# This seems to wreck things:
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# width=1.5,
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linewidth=0,
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# inner="quartile"
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)
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# Add back percentile legend:
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ax.add_artist(pctl_legend)
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approx_target_y_tics = 20
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ax.yaxis.set_major_locator(ticker.MaxNLocator(approx_target_y_tics))
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ax.yaxis.set_major_formatter(ticker.FuncFormatter(y_fmt))
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plt.ylim(0, None)
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out_fig = gen_plot_figure_data(plt)
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plt.close()
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return out_fig
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def hdrhistogram_figure(df):
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sns.set_style("whitegrid")
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fig, ax = plt.subplots(figsize=(14,6))
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sns.lineplot(x='percentile', y='latency', hue='version',
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data=df, ax=ax)
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ax.grid()
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ax.set(
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xlabel='Percentile',
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ylabel='Latency (ms)'
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)
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ax.set_xscale('logit')
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ticks = [0.25, 0.5, 0.9, 0.99, 0.999, 0.9999, 0.99999]
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plt.xticks(ticks)
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majors = ['25%', '50%', '90%', '99%' , '99.9%', '99.99%']
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ax.xaxis.set_major_formatter(ticker.FixedFormatter(majors))
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ax.xaxis.set_minor_formatter(ticker.NullFormatter())
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out_fig = gen_plot_figure_data(plt)
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plt.close()
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return out_fig
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def hdrhistogram_data(latency_results, scenarios):
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results = get_scenario_results(latency_results, scenarios)
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data = []
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for (snro, req_results) in results:
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ver_info = snro['version'] or snro['docker_image'].split(':')[1]
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if req_results:
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histogram = req_results[0]['latency_histogram']
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for e in histogram:
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data.append({
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'latency': float(e['latency']),
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'percentile': float(e['percentile']),
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'req/sec': snro['requests_per_sec'],
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'version': ver_info
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})
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return pd.DataFrame(data)
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# Human friendly Y labels.
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# Copy-pasta: https://stackoverflow.com/a/40573071
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def y_fmt(y, pos):
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decades = [1e9, 1e6, 1e3, 1e0, 1e-3, 1e-6, 1e-9 ]
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suffix = ["G", "M", "k", "" , "m" , "u", "n"]
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if y == 0:
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return str(0)
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for i, d in enumerate(decades):
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if np.abs(y) >=d:
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val = y/float(d)
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signf = len(str(val).split(".")[1])
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if signf == 0:
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return '{val:d} {suffix}'.format(val=int(val), suffix=suffix[i])
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else:
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if signf == 1:
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if str(val).split(".")[1] == "0":
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return '{val:d} {suffix}'.format(val=int(round(val)), suffix=suffix[i])
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tx = "{"+"val:.{signf}f".format(signf = signf) +"} {suffix}"
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return tx.format(val=val, suffix=suffix[i])
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return y
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def run_dash_server(bench_results):
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latency_results = bench_results['latency']
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max_rps_results = bench_results['max_rps']
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latency_results.sort(key=lambda x : x['version'] or x['docker_image'])
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app = dash.Dash(external_stylesheets=[dbc.themes.BOOTSTRAP])
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uniq_queries = list( set( [ x['query_name'] for x in latency_results ] ) )
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children = []
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rows = []
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plot_types = ['latency histogram','latency violins', 'max throughput']
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plots_filters_1 = [
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dbc.Col([
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html.Label('Plot type'),
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dcc.Dropdown(
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id='plot-type',
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options=[{'label':q, 'value': q} for q in plot_types],
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value= plot_types[2]
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)
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], width=2),
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dbc.Col([
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html.Label('Query'),
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dcc.Dropdown(
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id='query-name',
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options=[{'label':q, 'value': q} for q in uniq_queries],
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value= uniq_queries[:min(len(uniq_queries), 4)],
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multi=True
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)
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]),
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dbc.Col(html.Div(
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children=[
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html.Label('Requests/sec'),
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dcc.Dropdown(id='rps', multi=False)
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],
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id='rps-div'
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), width=3)
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]
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rows.append(dbc.Row(plots_filters_1))
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plots_filter_2 = [
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dbc.Col([
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html.Label('version(s)/docker_image(s)'),
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dcc.Dropdown(
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id='ver',
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multi=True
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)
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])
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]
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rows.append(dbc.Row(plots_filter_2))
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graph = dbc.Col(
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html.Div([html.Img(id = 'graph', src = '')], id='plot_div')
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)
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rows.append(dbc.Row(graph))
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children.append(html.Div(dbc.Container(rows)))
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app.layout = html.Div(children=children)
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def as_list(x):
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if not isinstance(x, list):
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return [x]
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else:
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return x
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@app.callback(
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Output('ver', 'options'),
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[ Input('plot-type', 'value'), Input('query-name', 'value'), Input('rps', 'value') ]
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)
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def updateVerOptions(plot_type, query_names, rps_list):
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query_names = as_list(query_names)
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rps_list = as_list(rps_list)
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relvnt_q = [
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x for x in latency_results
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if x['query_name'] in query_names and
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(x['requests_per_sec'] in rps_list or plot_type == 'max throughput')
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]
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uniq_vers = list(set([
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(x['version'], x['docker_image'])
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for x in relvnt_q
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]))
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print("Updating version options to", uniq_vers)
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return [
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{
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'label': x[0] or x[1],
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'value': json.dumps({
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'version': x[0],
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'docker_image': x[1]
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})
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}
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for x in uniq_vers
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]
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@app.callback(
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Output('ver', 'value'),
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[ Input('plot-type', 'value'), Input('ver', 'options') ],
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[ State('ver', 'value') ]
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)
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def updateVerValue(plot_types, options, vers):
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print('Updating version value, options', options)
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return updateMultiValue(options, vers)
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def updateMultiValue(options, vals, def_list_size=2):
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vals = as_list(vals)
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new_vals = []
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allowed_vals = [ x['value'] for x in options]
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def_val_size = min(def_list_size, len(allowed_vals))
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default_vals = allowed_vals[:def_val_size]
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if not vals:
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return default_vals
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for val in vals:
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if val in allowed_vals:
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new_vals.append(val)
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if new_vals:
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return new_vals
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else:
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return default_vals
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def updateSingleValue(options, val):
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allowed_vals = [ x['value'] for x in options]
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if val and val in allowed_vals:
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return val
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elif allowed_vals:
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return allowed_vals[0]
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else:
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return None
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# Change queries to multi for throughput plot
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@app.callback(
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Output('query-name', 'multi'),
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[ Input('plot-type', 'value') ],
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)
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def query_dropdown_multi(plot_type):
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return plot_type == 'max throughput'
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@app.callback(
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Output('query-name', 'value'),
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[ Input('plot-type', 'value'), Input('query-name', 'options'), Input('query-name', 'multi') ],
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[ State('query-name', 'value') ]
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)
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def updateQueryValue(plot_type, options, multi, query_names):
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if plot_type == 'max throughput':
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return updateMultiValue(options, query_names, 4)
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else:
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return updateSingleValue(options, query_names)
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@app.callback(
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Output('rps', 'options'),
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[ Input('plot-type', 'value'), Input('query-name', 'value') ]
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)
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def updateRPSOptions(plot_type, query_name):
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relvnt_q = [ x for x in latency_results if x['query_name'] == query_name ]
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rps = list( set( [x['requests_per_sec'] for x in relvnt_q ] ) )
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return [
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{
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'label': str(x),
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'value': x
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} for x in sorted(rps)
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]
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@app.callback(
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Output('rps', 'value'),
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[ Input('plot-type', 'value'), Input('rps', 'options') ],
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[ State('rps', 'value') ]
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)
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def updateRPSValue(plot_type, options, rps):
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if plot_type == 'latency histogram':
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return updateSingleValue(options, rps)
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else:
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rps = as_list(rps)
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return updateMultiValue(options, rps)
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# Change RPS to multi for violin plot
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@app.callback(
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Output('rps', 'multi'),
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[ Input('plot-type', 'value') ],
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)
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def rps_dropdown_multi(plot_type):
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return plot_type == 'latency violins'
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# Hide RPS dropdown if plot type is throughput
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@app.callback(
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Output('rps-div', 'style'),
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[ Input('plot-type', 'value') ],
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)
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def rps_dropdown_style(plot_type):
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if plot_type == 'max throughput':
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return { 'display': 'none' }
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else:
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return {'display': 'block'}
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def get_hdrhistogram_figure(scenarios):
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df = hdrhistogram_data(latency_results, scenarios)
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return hdrhistogram_figure(df)
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def get_violin_figure(scenarios):
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df = violin_plot_data(latency_results, scenarios)
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return violin_plot_figure(df)
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def get_throughput_figure(scenarios):
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df = throughput_data(max_rps_results, scenarios)
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return throughput_figure(df)
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@app.callback(
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Output('graph', 'src'),
|
|
[
|
|
Input('plot-type', 'value'),
|
|
Input('query-name', 'value'),
|
|
Input('rps', 'value'),
|
|
Input('ver', 'value')
|
|
]
|
|
)
|
|
def updateGraph(plot_type, query_name, rps_list, vers):
|
|
rps_list = as_list(rps_list)
|
|
def latency_scenarios():
|
|
return [
|
|
{
|
|
'query_name': query_name,
|
|
'requests_per_sec': rps,
|
|
**json.loads(v)
|
|
}
|
|
for v in set(vers)
|
|
for rps in set(rps_list)
|
|
]
|
|
def throughput_scenarios():
|
|
return [
|
|
{
|
|
'query_name': qname,
|
|
**json.loads(v)
|
|
}
|
|
for v in set(vers)
|
|
for qname in as_list(query_name)
|
|
]
|
|
if plot_type == 'max throughput':
|
|
scenarios = throughput_scenarios()
|
|
else:
|
|
scenarios = latency_scenarios()
|
|
|
|
|
|
if plot_type == 'latency histogram':
|
|
return get_hdrhistogram_figure(scenarios)
|
|
elif plot_type == 'latency violins':
|
|
return get_violin_figure(scenarios)
|
|
elif plot_type == 'max throughput':
|
|
return get_throughput_figure(scenarios)
|
|
|
|
app.run_server(host="127.0.0.1", debug=False)
|
|
|
|
if __name__ == '__main__':
|
|
|
|
parser = argparse.ArgumentParser()
|
|
parser.add_argument(
|
|
'--results', nargs='?', type=argparse.FileType('r'),
|
|
default=sys.stdin)
|
|
args = parser.parse_args()
|
|
bench_results = json.load(args.results)
|
|
print(bench_results)
|
|
|
|
print("=" * 20)
|
|
print("starting dash server for graphs")
|
|
|
|
run_dash_server(bench_results)
|