#!/usr/bin/env python3 # BA Janis Falkenhagen import getopt import sys import re import os import numpy as np import pprint import json import matplotlib.pyplot as plt if __name__ == "__main__": # OPTION RECOGNITION opt = dict() optspec = "bench_filename= " "result_filename= " opt_bench_filename = None opt_result_filename = None try: raw_opts, args = getopt.getopt(sys.argv[1:], "", optspec.split(" ")) for option, parameter in raw_opts: optname = re.sub(r"^--", "", option) opt[optname] = parameter except getopt.GetoptError as err: print(err, file=sys.stderr) sys.exit(-1) if "bench_filename" in opt: opt_bench_filename = opt["bench_filename"] else: sys.exit(-1) if "result_filename" in opt: opt_result_filename = opt["result_filename"] else: print("wth") sys.exit(-1) with open(opt_bench_filename, "r") as f: configurations = json.load(f) with open(opt_result_filename, "r") as f: sequence_line = f.readline() begin_sequence = sequence_line.rfind("Resulting Sequence: ") + 20 if begin_sequence < 20: print("nicht gefunden!") sys.exit(-1) sequence_substr = sequence_line[begin_sequence:] resulting_sequence = eval(sequence_substr) new_line = f.readline() while new_line == "\n": new_line = f.readline() function_line = new_line pow_function_dict = dict() while function_line != "\n": state_name_pos = function_line.find("Power-Function for state ") + 25 state_name_end = function_line.find(":") state_name = function_line[state_name_pos:state_name_end] function_string = function_line[state_name_end + 1 : -1] pow_function_dict[state_name] = function_string function_line = f.readline() new_line = "\n" while new_line == "\n": new_line = f.readline() function_line = new_line dur_function_dict = dict() while ( function_line != "\n" and function_line != "" and "THIS RESULT IS NOT ACCURATE." not in function_line ): state_name_pos = function_line.find("Duration-Function for state ") + 28 state_name_end = function_line.find(":") state_name = function_line[state_name_pos:state_name_end] function_string = function_line[state_name_end + 1 : -1] dur_function_dict[state_name] = function_string function_line = f.readline() param_names = configurations[0]["offline_aggregates"]["paramkeys"][0] for num_fig in range(0, min(4, len(configurations))): rand_config_no = np.random.randint(0, len(configurations), 1)[0] rand_conf = configurations[rand_config_no] rand_signal = np.array(rand_conf["offline"][0]["uW"]) rand_param = rand_conf["offline_aggregates"]["param"][0] rand_max_pow = max(rand_signal) # pprint.pprint(rand_param) pretty_rand_param = pprint.pformat(rand_param) print( str(param_names) + "(" + str(rand_config_no) + ")" + "\n" + pretty_rand_param ) time = 0 next_time = 0 rand_stepper = 0 pow = 0 resulting_coords = list() while rand_stepper < len(resulting_sequence): curr_state = resulting_sequence[rand_stepper] curr_state_name = "State_" + str(curr_state) curr_pow_func = pow_function_dict[curr_state_name] curr_dur_func = dur_function_dict[curr_state_name] for num_param, name in enumerate(param_names): replace_string = "parameter(" + name + ")" curr_pow_func = curr_pow_func.replace( replace_string, str(rand_param[num_param]) ) curr_dur_func = curr_dur_func.replace( replace_string, str(rand_param[num_param]) ) pow = eval(curr_pow_func) dur = eval(curr_dur_func) next_time = time + dur start_coord = (time, pow) end_coord = (next_time, pow) resulting_coords.append(start_coord) resulting_coords.append(end_coord) rand_stepper = rand_stepper + 1 time = next_time with open("res_conf_" + str(num_fig) + "_signal.txt", "w") as f: f.write("x,y\n") for x, y in enumerate(rand_signal): f.write(str(x) + "," + str(y) + "\n") with open("res_conf_" + str(num_fig) + "_fit.txt", "w") as f: f.write("x,y\n") for x, y in resulting_coords: f.write(str(x) + "," + str(y) + "\n") plt.plot(rand_signal) plt.plot([x for x, y in resulting_coords], [y for x, y in resulting_coords]) plt.savefig("res_conf_" + str(num_fig) + "_pic.pdf", format="pdf", dpi=300) plt.clf()