das-research/DAS/visualizer.py

254 lines
12 KiB
Python

#!/bin/python3
import os, sys
import time
import xml.etree.ElementTree as ET
import matplotlib.pyplot as plt
import numpy as np
import seaborn as sns
from itertools import combinations
from mplfinance.original_flavor import candlestick_ohlc
import os
class Visualizer:
def __init__(self, execID, config):
self.execID = execID
self.config = config
self.folderPath = "results/"+self.execID
self.parameters = ['run', 'blockSize', 'failureRate', 'numberNodes', 'netDegree', 'chi', 'vpn1', 'vpn2', 'class1ratio', 'bwUplinkProd', 'bwUplink1', 'bwUplink2']
self.minimumDataPoints = 2
self.maxTTA = 99
def plottingData(self):
"""Store data with a unique key for each params combination"""
data = {}
bw = []
print("Getting data from the folder...")
"""Loop over the xml files in the folder"""
for filename in os.listdir(self.folderPath):
"""Loop over the xmls and store the data in variables"""
if filename.endswith('.xml'):
tree = ET.parse(os.path.join(self.folderPath, filename))
root = tree.getroot()
run = int(root.find('run').text)
blockSize = int(root.find('blockSize').text)
failureRate = int(root.find('failureRate').text)
numberNodes = int(root.find('numberNodes').text)
class1ratio = float(root.find('class1ratio').text)
netDegree = int(root.find('netDegree').text)
chi = int(root.find('chi').text)
vpn1 = int(root.find('vpn1').text)
vpn2 = int(root.find('vpn2').text)
bwUplinkProd = int(root.find('bwUplinkProd').text)
bwUplink1 = int(root.find('bwUplink1').text)
bwUplink2 = int(root.find('bwUplink2').text)
tta = int(root.find('tta').text)
"""Store BW"""
bw.append(bwUplinkProd)
"""Loop over all possible combinations of length of the parameters minus x, y params"""
for combination in combinations(self.parameters, len(self.parameters)-2):
# Get the indices and values of the parameters in the combination
indices = [self.parameters.index(element) for element in combination]
selectedValues = [run, blockSize, failureRate, numberNodes, netDegree, chi, vpn1, vpn2, class1ratio, bwUplinkProd, bwUplink1, bwUplink2]
values = [selectedValues[index] for index in indices]
names = [self.parameters[i] for i in indices]
keyComponents = [f"{name}_{value}" for name, value in zip(names, values)]
key = tuple(keyComponents[:len(self.parameters)-2])
"""Get the names of the other parameters that are not included in the key"""
otherParams = [self.parameters[i] for i in range(len(self.parameters)) if i not in indices]
"""Append the values of the other parameters and the ttas to the lists for the key"""
otherIndices = [i for i in range(len(self.parameters)) if i not in indices]
"""Initialize the dictionary for the key if it doesn't exist yet"""
if key not in data:
data[key] = {}
"""Initialize lists for the other parameters and the ttas with the key"""
data[key][otherParams[0]] = []
data[key][otherParams[1]] = []
data[key]['ttas'] = []
if otherParams[0] in data[key]:
data[key][otherParams[0]].append(selectedValues[otherIndices[0]])
else:
data[key][otherParams[0]] = [selectedValues[otherIndices[0]]]
if otherParams[1] in data[key]:
data[key][otherParams[1]].append(selectedValues[otherIndices[1]])
else:
data[key][otherParams[1]] = [selectedValues[otherIndices[1]]]
data[key]['ttas'].append(tta)
return data
def averageRuns(self, data, runs):
'''Debugging'''
if not os.path.exists('debug'):
os.makedirs('debug')
"""Get the average of all runs for each key"""
newData = {}
print("Getting the average of the runs...")
for key, value in data.items():
runExists = False
"""Check if the key contains 'run_' with a numerical value"""
for item in key:
if item.startswith('run_'):
runExists = True
break
if runExists:
for item in key:
"""Create a new key with the other items in the tuple"""
if item.startswith('run_'):
newKey = tuple([x for x in key if x != item])
"""Average the similar key values"""
total = [0] * len(data[key]['ttas'])
with open('debug/debug.txt', 'a') as f:
f.write('TTAs:\n')
for i in range(runs):
key0 = (f'run_{i}',) + newKey
with open('debug/debug.txt', 'a') as f:
f.write(str(data[key0]['ttas']) + '\n')
for cnt, tta in enumerate(data[key0]['ttas']):
total[cnt] += tta
for i in range(len(total)):
total[i] = total[i]/runs
if(total[i] == -1):
total[i] = self.maxTTA
with open('debug/debug.txt', 'a') as f:
f.write('Average:\n')
f.write(str(total)+ '\n')
averages = {}
for subkey in data[key].keys():
if subkey == 'ttas':
averages[subkey] = total
else:
averages[subkey] = data[key][subkey]
newData[newKey] = averages
return newData
def similarKeys(self, data):
"""Get the keys for all data with the same x and y labels"""
filteredKeys = {}
for key1, value1 in data.items():
subKeys1 = list(value1.keys())
filteredKeys[(subKeys1[0], subKeys1[1])] = [key1]
for key2, value2 in data.items():
subKeys2 = list(value2.keys())
if key1 != key2 and subKeys1[0] == subKeys2[0] and subKeys1[1] == subKeys2[1]:
try:
filteredKeys[(subKeys1[0], subKeys1[1])].append(key2)
except KeyError:
filteredKeys[(subKeys1[0], subKeys1[1])] = [key2]
print("Getting filtered keys from data...")
return filteredKeys
def formatLabel(self, label):
"""Label formatting for the figures"""
result = ''.join([f" {char}" if char.isupper() else char for char in label])
return result.title()
def formatTitle(self, key):
"""Title formatting for the figures"""
name = ''.join([f" {char}" if char.isupper() else char for char in key.split('_')[0]])
number = key.split('_')[1]
return f"{name.title()}: {number} "
def plotHeatmaps(self):
"""Plot and store the 2D heatmaps in subfolders"""
data= self.plottingData()
"""Average the runs if needed"""
if(len(self.config.runs) > 1):
data = self.averageRuns(data, len(self.config.runs))
filteredKeys = self.similarKeys(data)
vmin, vmax = 0, self.maxTTA
print("Plotting heatmaps...")
"""Create the directory if it doesn't exist already"""
heatmapsFolder = self.folderPath + '/heatmaps'
if not os.path.exists(heatmapsFolder):
os.makedirs(heatmapsFolder)
"""Plot"""
for labels, keys in filteredKeys.items():
for key in keys:
xlabels = np.sort(np.unique(data[key][labels[0]]))
ylabels = np.sort(np.unique(data[key][labels[1]]))
if len(xlabels) < self.minimumDataPoints or len(ylabels) < self.minimumDataPoints:
continue
hist, xedges, yedges = np.histogram2d(data[key][labels[0]], data[key][labels[1]], bins=(len(xlabels), len(ylabels)), weights=data[key]['ttas'])
hist = hist.T
fig, ax = plt.subplots(figsize=(10, 6))
sns.heatmap(hist, xticklabels=xlabels, yticklabels=ylabels, cmap='hot_r', cbar_kws={'label': 'Time to block availability'}, linecolor='black', linewidths=0.3, annot=True, fmt=".2f", ax=ax, vmin=vmin, vmax=vmax)
plt.xlabel(self.formatLabel(labels[0]))
plt.ylabel(self.formatLabel(labels[1]))
filename = ""
title = ""
paramValueCnt = 0
for param in self.parameters:
if param != labels[0] and param != labels[1] and param != 'run':
filename += f"{key[paramValueCnt]}"
formattedTitle = self.formatTitle(key[paramValueCnt])
title += formattedTitle
paramValueCnt += 1
title_obj = plt.title(title)
font_size = 16 * fig.get_size_inches()[0] / 10
title_obj.set_fontsize(font_size)
filename = filename + ".png"
targetFolder = os.path.join(heatmapsFolder, f"{labels[0]}Vs{labels[1]}")
if not os.path.exists(targetFolder):
os.makedirs(targetFolder)
plt.savefig(os.path.join(targetFolder, filename))
plt.close()
plt.clf()
def plotHist(self, bandwidth):
"""Plot Bandwidth Frequency Histogram"""
plt.hist(bandwidth, bins=5)
plt.xlabel('Bandwidth')
plt.ylabel('Frequency')
plt.title('Bandwidth Histogram')
"""Create the directory if it doesn't exist already"""
histogramFolder = self.folderPath + '/histogram'
if not os.path.exists(histogramFolder):
os.makedirs(histogramFolder)
filename = os.path.join(histogramFolder, 'histogram.png')
plt.savefig(filename)
plt.clf()
def plotHist(self, bandwidth):
"""Plot Bandwidth Frequency Histogram"""
plt.hist(bandwidth, bins=5)
plt.xlabel('Bandwidth')
plt.ylabel('Frequency')
plt.title('Bandwidth Histogram')
"""Create the directory if it doesn't exist already"""
histogramFolder = self.folderPath + '/histogram'
if not os.path.exists(histogramFolder):
os.makedirs(histogramFolder)
filename = os.path.join(histogramFolder, 'histogram.png')
plt.savefig(filename)
plt.clf()
def plotCandleStick(self, TX_prod, TX_avg, TX_max):
#x-axis corresponding to steps
steps = range(len(TX_prod))
#Plot the candlestick chart
ohlc = []
for i in range(len(TX_prod)):
ohlc.append([steps[i], TX_prod[i], TX_max[i], TX_avg[i]])
fig, ax = plt.subplots()
candlestick_ohlc(ax, ohlc, width=0.6, colorup='green', colordown='red')
#Ticks, title and labels
plt.xticks(steps, ['run{}'.format(i) for i in steps], rotation=45)
plt.title('Candlestick Chart')
plt.xlabel('Step')
plt.ylabel('Price')
#Test
plt.show()