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- #!/usr/bin/env python3
- import os
- import sys
- import json
- from math import sqrt
- import numpy as np
- import matplotlib.pyplot as plt
- from scipy.optimize import curve_fit
- from contextlib import contextmanager
- PLOT_OPTIONS = {
- "workload": {
- "all": {
- "legend": 'Workload: "all"',
- "marker": '^',
- "color": "red"
- },
- "half": {
- "legend": 'Workload: "half"',
- "marker": 'X',
- "color": "green"
- },
- "no": {
- "legend": 'Workload: "none"',
- "marker": '*',
- "color": "blue"
- },
- "hbcall": {
- "legend": 'Workload: "all"',
- "marker": '^',
- "color": "red"
- },
- "hbchalf": {
- "legend": 'Workload: "half"',
- "marker": 'X',
- "color": "green"
- },
- "hbcno": {
- "legend": 'Workload: "none"',
- "marker": '*',
- "color": "blue"
- }
- },
- "numServers": {
- 2: {
- "legend": "2 servers",
- "marker": '^',
- "color": "red"
- },
- 3: {
- "legend": "3 servers",
- "marker": 'X',
- "color": "blue"
- },
- 4: {
- "legend": "4 servers",
- "marker": '*',
- "color": "green"
- },
- 5: {
- "legend": "5 servers",
- "marker": 'h',
- "color": "orange"
- }
- },
- "numClients": {
- 5: {
- "legend": "5 clients",
- "marker": "^",
- "color": "red"
- },
- 10: {
- "legend": "10 clients",
- "marker": "v",
- "color": "green"
- },
- 15: {
- "legend": "15 clients",
- "marker": ">",
- "color": "blue"
- },
- 20: {
- "legend": "20 clients",
- "marker": "<",
- "color": "orange"
- },
- 25: {
- "legend": "25 clients",
- "marker": "X",
- "color": "magenta"
- },
- 30: {
- "legend": "30 clients",
- "marker": "*",
- "color": "pink"
- },
- 40: {
- "legend": "40 clients",
- "marker": "h",
- "color": "cyan"
- },
- 50: {
- "legend": "50 clients",
- "marker": ".",
- "color": "black"
- }
- },
- "lambda": {
- 40: {
- "legend": "Lambda: 40",
- "marker": "^",
- "color": "red"
- },
- 50: {
- "legend": "Lambda: 50",
- "marker": "X",
- "color": "green"
- },
- 64: {
- "legend": "Lambda: 64",
- "marker": "*",
- "color": "blue"
- }
- }
- }
- LOGLOG_FIT_OPTIONS = {
- "workload": {
- "overall_epoch_cpu": {
- "0": 64,
- "50": 32
- },
- "overall_epoch_total": {
- "0": 256,
- "50": 256
- }
- },
- "lambda": {
- "overall_epoch_cpu": 32,
- "overall_epoch_total": 256
- },
- "numServers": {
- "overall_epoch_cpu": 32,
- "overall_epoch_total": 128
- }
- }
- ##
- # This functionality allows us to temporarily change our working directory
- #
- # @input newdir - the new directory (relative to our current position) we want to be in
- @contextmanager
- def cd(newdir, makenew):
- prevdir = os.getcwd()
- directory = os.path.expanduser(newdir)
- if not os.path.exists(directory) and makenew:
- os.makedirs(directory)
- os.chdir(directory)
- try:
- yield
- finally:
- os.chdir(prevdir)
- def genericCube(x, a, b, c, d):
- return a * (x * x * x) + b * (x * x) + c * x + d
- def onlyCube(x, a):
- return a * (x * x * x)
- def onlySquare(x, a):
- return a * (x * x)
- def readData(dataDirectory):
- serverData = {}
- clientData = {}
- realDirectory = os.path.expanduser(dataDirectory)
- for test in os.listdir(realDirectory):
- if not test.startswith('.') and not test.endswith('.tar.gz') and test.find("default") == -1:
- testParts = test.split("-")
-
- if not testParts[0] in serverData:
- serverData[testParts[0]] = {}
- if not testParts[0] in clientData:
- clientData[testParts[0]] = {}
-
- if not testParts[1] in serverData[testParts[0]]:
- serverData[testParts[0]][testParts[1]] = {}
- if not testParts[1] in clientData[testParts[0]]:
- clientData[testParts[0]][testParts[1]] = {}
-
- if not testParts[2] in serverData[testParts[0]][testParts[1]]:
- serverData[testParts[0]][testParts[1]][testParts[2]] = {}
- if not testParts[2] in clientData[testParts[0]][testParts[1]]:
- clientData[testParts[0]][testParts[1]][testParts[2]] = {}
- if not testParts[3] in serverData[testParts[0]][testParts[1]][testParts[2]]:
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]] = {}
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['overall_epoch_wall'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['overall_epoch_cpu'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['overall_epoch_recv'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['overall_epoch_sent'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['overall_epoch_total'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_up_wall'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_up_cpu'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_up_recv'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_up_sent'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_up_total'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_down_wall'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_down_cpu'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_down_recv'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_down_sent'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_down_total'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_update_wall'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_update_cpu'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_update_recv'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_update_sent'] = []
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_update_total'] = []
- if not testParts[3] in clientData[testParts[0]][testParts[1]][testParts[2]]:
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]] = {}
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_wall'] = []
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_cpu'] = []
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_recv'] = []
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_sent'] = []
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_total'] = []
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_prove_wall'] = []
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_prove_cpu'] = []
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_prove_recv'] = []
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_prove_sent'] = []
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_prove_total'] = []
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_verify_wall'] = []
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_verify_cpu'] = []
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_verify_recv'] = []
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_verify_sent'] = []
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_verify_total'] = []
- for test in os.listdir(realDirectory):
- if not test.startswith('.') and not test.endswith('.tar.gz') and test.find("default") == -1:
- testParts = test.split("-")
- for whichEntity in os.listdir(os.path.join(realDirectory, test)):
- if whichEntity.startswith('s') or whichEntity.startswith('d'):
- try:
- with open(os.path.expanduser(os.path.join(realDirectory, test, whichEntity, 'overallEpoch.out')), 'r') as overallEpochFile:
- for line in overallEpochFile:
- lineParts = line.rstrip().split(',')
- wallTime = float(lineParts[0])
- cpuTime = float(lineParts[1])
- dataRecv = float(lineParts[2])
- dataSent = float(lineParts[3])
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['overall_epoch_wall'].append(wallTime)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['overall_epoch_cpu'].append(cpuTime)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['overall_epoch_recv'].append(dataRecv)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['overall_epoch_sent'].append(dataSent)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['overall_epoch_total'].append(dataRecv + dataSent)
- except FileNotFoundError as e:
- pass
- try:
- with open(os.path.expanduser(os.path.join(realDirectory, test, whichEntity, 'epochUp.out')), 'r') as epochUpFile:
- for line in epochUpFile:
- lineParts = line.rstrip().split(',')
- wallTime = float(lineParts[0])
- cpuTime = float(lineParts[1])
- dataRecv = float(lineParts[2])
- dataSent = float(lineParts[3])
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_up_wall'].append(wallTime)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_up_cpu'].append(cpuTime)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_up_recv'].append(dataRecv)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_up_sent'].append(dataSent)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_up_total'].append(dataRecv + dataSent)
- except FileNotFoundError as e:
- pass
- try:
- with open(os.path.expanduser(os.path.join(realDirectory, test, whichEntity, 'epochDown.out')), 'r') as epochDownFile:
- for line in epochDownFile:
- lineParts = line.rstrip().split(',')
- wallTime = float(lineParts[0])
- cpuTime = float(lineParts[1])
- dataRecv = float(lineParts[2])
- dataSent = float(lineParts[3])
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_down_wall'].append(wallTime)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_down_cpu'].append(cpuTime)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_down_recv'].append(dataRecv)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_down_sent'].append(dataSent)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['epoch_down_total'].append(dataRecv + dataSent)
- except FileNotFoundError as e:
- pass
- try:
- with open(os.path.expanduser(os.path.join(realDirectory, test, whichEntity, 'voteUpdate.out')), 'r') as voteUpdateFile:
- for line in voteUpdateFile:
- lineParts = line.rstrip().split(',')
- wallTime = float(lineParts[0])
- cpuTime = float(lineParts[1])
- dataRecv = float(lineParts[2])
- dataSent = float(lineParts[3])
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_update_wall'].append(wallTime)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_update_cpu'].append(cpuTime)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_update_recv'].append(dataRecv)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_update_sent'].append(dataSent)
- serverData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_update_total'].append(dataRecv + dataSent)
- except FileNotFoundError as e:
- pass
- elif whichEntity.startswith('c'):
- try:
- with open(os.path.expanduser(os.path.join(realDirectory, test, whichEntity, 'vote.out')), 'r') as repVerifierFile:
- for line in repVerifierFile:
- lineParts = line.rstrip().split(',')
- wallTime = float(lineParts[0])
- cpuTime = float(lineParts[1])
- dataRecv = float(lineParts[2])
- dataSent = float(lineParts[3])
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_wall'].append(wallTime)
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_cpu'].append(cpuTime)
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_recv'].append(dataRecv)
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_sent'].append(dataSent)
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['vote_total'].append(dataRecv + dataSent)
- except FileNotFoundError as e:
- pass
- try:
- with open(os.path.expanduser(os.path.join(realDirectory, test, whichEntity, 'repProver.out')), 'r') as repProverFile:
- for line in repProverFile:
- lineParts = line.rstrip().split(',')
-
- if not ('*' in lineParts[0]):
- wallTime = float(lineParts[0])
- cpuTime = float(lineParts[1])
- dataRecv = float(lineParts[2])
- dataSent = float(lineParts[3])
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_prove_wall'].append(wallTime)
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_prove_cpu'].append(cpuTime)
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_prove_recv'].append(dataRecv)
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_prove_sent'].append(dataSent)
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_prove_total'].append(dataRecv + dataSent)
- except FileNotFoundError as e:
- pass
- try:
- with open(os.path.expanduser(os.path.join(realDirectory, test, whichEntity, 'repVerifier.out')), 'r') as repVerifierFile:
- for line in repVerifierFile:
- lineParts = line.rstrip().split(',')
- wallTime = float(lineParts[0])
- cpuTime = float(lineParts[1])
- dataRecv = float(lineParts[2])
- dataSent = float(lineParts[3])
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_verify_wall'].append(wallTime)
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_verify_cpu'].append(cpuTime)
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_verify_recv'].append(dataRecv)
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_verify_sent'].append(dataSent)
- clientData[testParts[0]][testParts[1]][testParts[2]][testParts[3]]['rep_verify_total'].append(dataRecv + dataSent)
- except FileNotFoundError as e:
- pass
- return serverData, clientData
- def plotComparison(data, dataParts, xVariable, lineVariable, whichGraph, **kwargs):
- z_star = kwargs['z_star'] if 'z_star' in kwargs else 1.96
- title = kwargs['title'] if 'title' in kwargs else ''
- xLabel = kwargs['xLabel'] if 'xLabel' in kwargs else ''
- yLabel = kwargs['yLabel'] if 'yLabel' in kwargs else ''
- yUnit = kwargs['yUnit'] if 'yUnit' in kwargs else ''
- fileNameStr = kwargs['fileNameStr'] if 'fileNameStr' in kwargs else f"basic-{xVariable}-{lineVariable}-{whichGraph}"
- legendLoc = kwargs['legendLoc'] if 'legendLoc' in kwargs else "best"
- legendBBoxAnchor = kwargs['legendBBoxAnchor'] if 'legendBBoxAnchor' in kwargs else (0, 1)
- extraFit = kwargs['extraFit'] if 'extraFit' in kwargs else False
- loglog = kwargs['loglog'] if 'loglog' in kwargs else False
- loglinear = kwargs['loglinear'] if 'loglinear' in kwargs else False
- yLim = kwargs['yLim'] if 'yLim' in kwargs else False
- aspect = kwargs['aspect'] if 'aspect' in kwargs else None
- ignoreWorkload = kwargs['ignoreWorkload'] if 'ignoreWorkload' in kwargs else False
- fig = plt.figure()
- ax = fig.gca()
- whichLines = 0
- lineSelection = []
- legendStart = ""
- legendEnd = ""
- if lineVariable == 'workload':
- whichLines = 0
- lineSelection = [str(x) for x in data.keys() if x != "rep" and x != "vote"]
- lineSelection.sort()
- ignoreWorkload = False
- elif lineVariable == 'numServers':
- whichLines = 1
- lineSelection = [int(x) for x in data['all'].keys()]
- lineSelection.sort()
- elif lineVariable == 'numClients':
- whichLines = 2
- lineSelection = [int(x) for x in data['all']['2'].keys()]
- lineSelection.sort()
- elif lineVariable == 'lambda':
- whichLines = 3
- if dataParts[3] == "":
- lineSelection = [int(x) for x in data['all']['2']['5'].keys()]
- lineSelection.sort()
- else:
- lineSelection = [int(dataParts[3])]
- lineSelection.sort()
- whichX = 0
- xSelection = []
- if xVariable == 'workload':
- whichX = 0
- xSelection = data.keys()
- ignoreWorkload = False
- elif xVariable == 'numServers':
- whichX = 1
- xSelection = [int(x) for x in data['all'].keys()]
- xSelection.sort()
- elif xVariable == 'numClients':
- whichX = 2
- xSelection = [int(x) for x in data['all']['2'].keys()]
- xSelection.sort()
- elif xVariable == 'lambda':
- whichX = 3
- xSelection = [int(x) for x in data['all']['2']['5'].keys()]
- xSelection.sort()
- loglogLineFit = False
- for selection in lineSelection:
- xs = []
- xTicks = []
- ys = []
- additionalYs = []
- yErrs = []
- additionalYErrs = []
- legend = PLOT_OPTIONS[lineVariable][selection]['legend']
- marker = PLOT_OPTIONS[lineVariable][selection]['marker']
- color = PLOT_OPTIONS[lineVariable][selection]['color']
- dataParts[whichLines] = str(selection)
-
- for x in xSelection:
- dataParts[whichX] = str(x)
- try:
- curr_data = []
- if ignoreWorkload == False:
- curr_data = data[dataParts[0]][dataParts[1]][dataParts[2]][dataParts[3]][whichGraph]
- else:
- for workload in ['all', 'half', 'no']:
- try:
- curr_data.extend(data[workload][dataParts[1]][dataParts[2]][dataParts[3]][whichGraph])
- except KeyError as e:
- pass
- if len(curr_data) == 0:
- continue
- dividing_factor = 1
- if yUnit == 'KB':
- dividing_factor = 1024.0
- if yUnit == 'MB':
- dividing_factor = 1024.0 * 1024.0
- if lineVariable == 'numServers':
- dividing_factor = dividing_factor * selection
- else:
- dividing_factor = dividing_factor * int(dataParts[1])
- used_data = [x / dividing_factor for x in curr_data]
- mean = np.mean(used_data)
- std = np.std(used_data)
- sqrt_len = sqrt(len(used_data))
- xs.append(x)
- ys.append(mean)
- yErrs.append(z_star * std / sqrt_len)
- except KeyError as e:
- pass
- if len(xs) > 1:
- line, _, _ = ax.errorbar(xs, ys, yerr=yErrs, capsize=7.0, label=legend, marker=marker, linestyle='-', color=color)
- if extraFit:
- popt, pcov = curve_fit(genericCube, xs, ys)
- beyondXs = np.linspace(xs[-1], 300, 50)
- ax.plot(beyondXs, genericCube(beyondXs, *popt), linestyle='--', color=color)
- if loglog and not loglogLineFit and dataParts[3] != '0':
- popt, pcov = curve_fit(onlyCube, xs, ys)
- moreXs = np.linspace(5, 50, 45)
- labelString = "Line of best fit with slope = 3"
- ax.plot(moreXs, onlyCube(moreXs, *popt), label=labelString, color="black")
- loglogLineFit = True
- if loglog and not loglogLineFit and dataParts[3] == '0':
- popt, pcov = curve_fit(onlySquare, xs, ys)
- moreXs = np.linspace(5, 50, 45)
- labelString = "Line of best fit with slope = 2"
- ax.plot(moreXs, onlySquare(moreXs, *popt), label=labelString, color="black")
- loglogLineFit = True
-
- ax.set_title(title, fontsize='x-large')
- ax.set_xlabel(xLabel, fontsize='large')
- ax.set_ylabel(yLabel, fontsize='large')
- if loglog:
- ax.set_yscale("log")
- ax.set_xscale("log")
- ax.set_xticks([5, 10, 20, 30, 40, 50])
- ax.set_xticklabels(["5", "10", "20", "30", "40", "50"])
- if loglinear:
- ax.set_xscale("log")
- ax.set_xticks([5, 10, 20, 30, 40, 50])
- ax.set_xticklabels(["5", "10", "20", "30", "40", "50"])
- else:
- bottom, top = ax.get_ylim()
- bottom = (0 if bottom > 0 else bottom)
- ax.set_ylim(bottom=bottom)
- if top > 100000:
- yTickLabels = ['{:2g}'.format(x) for x in ax.get_yticks().tolist()]
- ax.set_yticklabels(yTickLabels)
- if yLim:
- ax.set_ylim(bottom=yLim[0], top=yLim[1])
- if aspect:
- ax.set_aspect(aspect, adjustable='box')
- legend = ax.legend(loc=legendLoc, bbox_to_anchor=legendBBoxAnchor, fontsize='large')
- with cd('../plt/', True):
- fig.savefig(f"{fileNameStr}.pdf", bbox_inches='tight')
- plt.close(fig)
- def main(dataDirectory, plotOptionsFile):
- serverData, clientData = readData(dataDirectory)
- plotOptions = []
- with open(plotOptionsFile, 'r') as options:
- plotOptions = json.load(options)
- for option in plotOptions:
- try:
- data = serverData if (option['data'].lower() == "server" or option['data'].lower() == "s") else clientData
- dataParts = option['dataParts']
- xVariable = option['xVariable']
- lineVariable = option['lineVariable']
- whichGraph = option['whichGraph']
- except KeyError as e:
- continue
-
- kwargs = {}
- if "z_star" in option:
- kwargs["z_star"] = option["z_star"]
- if "title" in option:
- kwargs["title"] = option["title"]
- if "xLabel" in option:
- kwargs["xLabel"] = option["xLabel"]
- if "yLabel" in option:
- kwargs["yLabel"] = option["yLabel"]
- if "yUnit" in option:
- kwargs["yUnit"] = option["yUnit"]
- if "extraFit" in option:
- kwargs["extraFit"] = option["extraFit"]
- if "fileNameStr" in option:
- kwargs["fileNameStr"] = option["fileNameStr"]
- if "legendLoc" in option:
- kwargs["legendLoc"] = option["legendLoc"]
- if "legendBBoxAnchor" in option:
- anchor = (option["legendBBoxAnchor"][0], option["legendBBoxAnchor"][1])
- kwargs["legendBBoxAnchor"] = anchor
- if "loglog" in option:
- kwargs["loglog"] = option["loglog"]
- if "loglinear" in option:
- kwargs["loglinear"] = option["loglinear"]
- if "yLim" in option:
- kwargs["yLim"] = option["yLim"]
- if "aspect" in option:
- kwargs["aspect"] = option["aspect"]
- if "ignoreWorkload" in option:
- kwargs["ignoreWorkload"] = option["ignoreWorkload"]
- plotComparison(data, dataParts, xVariable, lineVariable, whichGraph, **kwargs)
- if __name__ == "__main__":
- main("../out", "../plt/plots.json")
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