#!/usr/bin/env python3 import getopt import re import sys from dfatool import plotter from dfatool.loader import RawData, pta_trace_to_aggregate from dfatool.functions import gplearn_to_function from dfatool.model import PTAModel opt = dict() def print_model_quality(results): for state_or_tran in results.keys(): print() for key, result in results[state_or_tran].items(): if "smape" in result: print( "{:20s} {:15s} {:.2f}% / {:.0f}".format( state_or_tran, key, result["smape"], result["mae"] ) ) else: print("{:20s} {:15s} {:.0f}".format(state_or_tran, key, result["mae"])) def format_quality_measures(result): if "smape" in result: return "{:6.2f}% / {:9.0f}".format(result["smape"], result["mae"]) else: return "{:6} {:9.0f}".format("", result["mae"]) def model_quality_table(result_lists, info_list): for state_or_tran in result_lists[0]["by_name"].keys(): for key in result_lists[0]["by_name"][state_or_tran].keys(): buf = "{:20s} {:15s}".format(state_or_tran, key) for i, results in enumerate(result_lists): info = info_list[i] buf += " ||| " if info == None or info(state_or_tran, key): result = results["by_name"][state_or_tran][key] buf += format_quality_measures(result) else: buf += "{:6}----{:9}".format("", "") print(buf) def model_summary_table(result_list): buf = "transition duration" for results in result_list: if len(buf): buf += " ||| " buf += format_quality_measures(results["duration_by_trace"]) print(buf) buf = "total energy " for results in result_list: if len(buf): buf += " ||| " buf += format_quality_measures(results["energy_by_trace"]) print(buf) buf = "transition timeout " for results in result_list: if len(buf): buf += " ||| " buf += format_quality_measures(results["timeout_by_trace"]) print(buf) def print_text_model_data(model, pm, pq, lm, lq, am, ai, aq): print("") print(r"key attribute $1 - \frac{\sigma_X}{...}$") for state_or_tran in model.by_name.keys(): for attribute in model.by_name[state_or_tran]["attributes"]: print( "{} {} {:.8f}".format( state_or_tran, attribute, model.generic_param_dependence_ratio(state_or_tran, attribute), ) ) print("") print(r"key attribute parameter $1 - \frac{...}{...}$") for state_or_tran in model.by_name.keys(): for attribute in model.by_name[state_or_tran]["attributes"]: for param in model.parameters(): print( "{} {} {} {:.8f}".format( state_or_tran, attribute, param, model.param_dependence_ratio(state_or_tran, attribute, param), ) ) if state_or_tran in model._num_args: for arg_index in range(model._num_args[state_or_tran]): print( "{} {} {:d} {:.8f}".format( state_or_tran, attribute, arg_index, model.arg_dependence_ratio( state_or_tran, attribute, arg_index ), ) ) if __name__ == "__main__": ignored_trace_indexes = None safe_functions_enabled = False function_override = {} show_models = [] show_quality = [] try: optspec = ( "plot-unparam= plot-param= show-models= show-quality= " "ignored-trace-indexes= function-override= " "with-safe-functions" ) raw_opts, args = getopt.getopt(sys.argv[1:], "", optspec.split(" ")) for option, parameter in raw_opts: optname = re.sub(r"^--", "", option) opt[optname] = parameter if "ignored-trace-indexes" in opt: ignored_trace_indexes = list( map(int, opt["ignored-trace-indexes"].split(",")) ) if 0 in ignored_trace_indexes: print("[E] arguments to --ignored-trace-indexes start from 1") if "function-override" in opt: for function_desc in opt["function-override"].split(";"): state_or_tran, attribute, *function_str = function_desc.split(" ") function_override[(state_or_tran, attribute)] = " ".join( function_str ) if "show-models" in opt: show_models = opt["show-models"].split(",") if "show-quality" in opt: show_quality = opt["show-quality"].split(",") if "with-safe-functions" in opt: safe_functions_enabled = True except getopt.GetoptError as err: print(err) sys.exit(2) raw_data = RawData(args) preprocessed_data = raw_data.get_preprocessed_data() by_name, parameters, arg_count = pta_trace_to_aggregate(preprocessed_data) ref_model = PTAModel( by_name, parameters, arg_count, traces=preprocessed_data, ignore_trace_indexes=ignored_trace_indexes, function_override=function_override, use_corrcoef=False, ) model = PTAModel( by_name, parameters, arg_count, traces=preprocessed_data, ignore_trace_indexes=ignored_trace_indexes, function_override=function_override, use_corrcoef=True, ) if "plot-unparam" in opt: for kv in opt["plot-unparam"].split(";"): state_or_trans, attribute = kv.split(" ") plotter.plot_y(model.by_name[state_or_trans][attribute]) if len(show_models): print("--- simple static model ---") static_model = model.get_static() ref_static_model = ref_model.get_static() if "static" in show_models or "all" in show_models: for state in model.states(): print( "{:10s}: {:.0f} µW ({:.2f})".format( state, static_model(state, "power"), model.generic_param_dependence_ratio(state, "power"), ) ) for param in model.parameters(): print( "{:10s} dependence on {:15s}: {:.2f}".format( "", param, model.param_dependence_ratio(state, "power", param) ) ) for trans in model.transitions(): print( "{:10s}: {:.0f} / {:.0f} / {:.0f} pJ ({:.2f} / {:.2f} / {:.2f})".format( trans, static_model(trans, "energy"), static_model(trans, "rel_energy_prev"), static_model(trans, "rel_energy_next"), model.generic_param_dependence_ratio(trans, "energy"), model.generic_param_dependence_ratio(trans, "rel_energy_prev"), model.generic_param_dependence_ratio(trans, "rel_energy_next"), ) ) print("{:10s}: {:.0f} µs".format(trans, static_model(trans, "duration"))) static_quality = model.assess(static_model) ref_static_quality = ref_model.assess(ref_static_model) if len(show_models): print("--- LUT ---") lut_model = model.get_param_lut() lut_quality = model.assess(lut_model) ref_lut_model = ref_model.get_param_lut() ref_lut_quality = ref_model.assess(ref_lut_model) if len(show_models): print("--- param model ---") param_model, param_info = model.get_fitted( safe_functions_enabled=safe_functions_enabled ) ref_param_model, ref_param_info = ref_model.get_fitted( safe_functions_enabled=safe_functions_enabled ) print("") print("") print("state_or_trans attribute param stddev_ratio corrcoef") for state in model.states(): for attribute in model.attributes(state): for param in model.parameters(): print( "{:10s} {:10s} {:10s} {:f} {:f}".format( state, attribute, param, ref_model.param_dependence_ratio(state, attribute, param), model.param_dependence_ratio(state, attribute, param), ) ) for trans in model.transitions(): for attribute in model.attributes(trans): for param in model.parameters(): print( "{:10s} {:10s} {:10s} {:f} {:f}".format( trans, attribute, param, ref_model.param_dependence_ratio(trans, attribute, param), model.param_dependence_ratio(trans, attribute, param), ) ) print("") print("") analytic_quality = model.assess(param_model) ref_analytic_quality = ref_model.assess(ref_param_model) if "tex" in show_models or "tex" in show_quality: print_text_model_data( model, static_model, static_quality, lut_model, lut_quality, param_model, param_info, analytic_quality, ) if "table" in show_quality or "all" in show_quality: print("corrcoef:") model_quality_table( [static_quality, analytic_quality, lut_quality], [None, param_info, None] ) print("heuristic:") model_quality_table( [ref_static_quality, ref_analytic_quality, ref_lut_quality], [None, ref_param_info, None], ) if "summary" in show_quality or "all" in show_quality: print("corrcoef:") model_summary_table([static_quality, analytic_quality, lut_quality]) print("heuristic:") model_summary_table([ref_static_quality, ref_analytic_quality, ref_lut_quality]) if "plot-param" in opt: for kv in opt["plot-param"].split(";"): state_or_trans, attribute, param_name, *function = kv.split(" ") if len(function): function = gplearn_to_function(" ".join(function)) else: function = None plotter.plot_param( model, state_or_trans, attribute, model.param_index(param_name), extra_function=function, ) sys.exit(0)