forked from LLNL/mpiGraph
/
draw.py
68 lines (58 loc) · 2.72 KB
/
draw.py
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# -*- coding: UTF-8 -*-
# Convert results generated by auto-size.sh or auto-windows.sh to line chart
import os
import re
import matplotlib.pyplot as plt
# target_list = ["auto-window-mvapich", "auto-window-intel", "auto-window-openmpi"]
# label = ["mvapich", "intel", "openmpi"]
# color = ["r", "g", "b"]
# target_list = ["auto-size-mvapich", "auto-size-intel", "auto-size-openmpi"]
# label = ["mvapich", "intel", "openmpi"]
# color = ["r", "g", "b"]
# target_list = ["auto-size-th16", "auto-size-th32", "auto-size-th32-contiguous"]
# label = ["th-mpich16", "th-mpich32", "th-mpich32-contiguous"]
# color = ["g", "r", "b"]
# target_list = ["result-2020-07-15-17.03.44", "result-2020-07-20-15.33.57", "result-2020-07-24-16.45.47", "result-2020-07-24-15.51.17"]
# label = ["new rt, er=0", "new rt, er=1", "old rt, er=0", "old rt, er=1"]
# color = ["r", "g", "b", "y"]
target_list = [ "result-2020-09-07-16.54.00", "result-2020-09-07-17.53.59", "result-2020-09-08-18.04.46", "result-2020-09-08-19.04.45"]
label = [ "old rt, er=1", "old rt, er=0", "new rt, er=1", "new rt, er=0"]
color = ["r", "g", "b", "y"]
def main():
for index in range(len(target_list)):
sub_dir_list = [ "./"+target_list[index]+'/'+dir for dir in os.listdir("./"+target_list[index]) ]
# print(sub_dir_list)
sub_dir_contain = []
for dir in sub_dir_list:
if (os.path.isdir(dir)):
sub_dir_contain += [ dir+'/'+file for file in os.listdir(dir) ]
file_list = []
for file in sub_dir_contain:
if file.endswith("mpiGraph.out"):
file_list.append(file)
# print(file_list)
send_max = []
send_avg = []
recv_max = []
recv_avg = []
for i in range(len(file_list)):
with open(file_list[i], "r") as file:
content = file.read()
send_max.append(re.search(r"(?<=(Send\smax\s))\d+\.\d+", content).group())
send_avg.append(re.search(r"(?<=(Send\savg\s))\d+\.\d+", content).group())
recv_max.append(re.search(r"(?<=(Recv\smax\s))\d+\.\d+", content).group())
recv_avg.append(re.search(r"(?<=(Recv\savg\s))\d+\.\d+", content).group())
send_max = [float(i) for i in send_max]
send_avg = [float(i) for i in send_avg]
recv_max = [float(i) for i in recv_max]
recv_avg = [float(i) for i in recv_avg]
# recv_avg = recv_avg[:15]
x = range(len(recv_avg))
plt.plot(x, send_avg, color=color[index], linestyle='--', label=label[index]+" send avg")
# plt.plot(x, send_max, color=color[index], linestyle=':', label=label[index]+" send max")
# plt.plot(x, recv_avg, color=color[index], linestyle='-', label=label[index]+" recv avg")
# plt.plot(x, recv_max, color=color[index], linestyle='-.', label=label[index]+" recv max")
plt.legend()
plt.show()
if __name__ == "__main__":
main()