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2 Commits
35c8862aa8
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0471251edf
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0xFugue
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0471251edf | |
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0xFugue
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0ebc6b7f03 |
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@ -12,33 +12,40 @@ import matplotlib.pyplot as plt
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from os import walk
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from collections import defaultdict
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# read a json and return the dict
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def read_json(fname):
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with open(fname) as f:
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cdata = json.load(f)
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return cdata
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# write the json from a dict
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def write_json(dic, fname):
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dic_str = {str(k): str(v) for k,v in dic.items()}
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jdump = json.dumps(dic_str, indent=4, sort_keys=True)
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with open(fname, 'w') as f:
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f.write(jdump)
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# read a serialised python dict
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def read_dict(fname):
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with open(fname, 'r') as f:
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return eval(f.read())
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# write a serialised python fict
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def write_dict(dic, fname):
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with open(fname, 'w') as f:
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return f.write(str(dic))
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# read the output csv and return a panadas dataframe
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def read_csv(fname):
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df = pd.read_csv(fname, header=0, comment='#', skipinitialspace = True )
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return df
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# write pandas dataframe as csv
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def write_csv(df, fname):
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df.to_csv(fname)
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# compute the steps it took to compute the views, and tag the tree depth
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def compute_view_finalisation_times(df, conf, oprefix, simtype, tag="tag", plot=False):
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if simtype == "tree":
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num_nodes = conf["node_count"]
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@ -52,16 +59,21 @@ def compute_view_finalisation_times(df, conf, oprefix, simtype, tag="tag", plot=
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two3rd = math.floor(conf["node_count"] * 2/3) + 1
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#two3rd = math.floor(conf["node_count"] * 3/3)
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views, view2fin_time = df.current_view.unique()[:-2], {}
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# for view_offset^th view, last view_offset number of views will need to be omitted
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view_offset = 1
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#views, view2fin_time = df.current_view.unique()[:-2], {}
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views, view2fin_time = df.current_view.unique()[:-view_offset], {}
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log.debug(f'views: {conf["stream_settings"]["path"]} {views}, {df.current_view.unique()}')
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print(df.current_view.unique(), df.step_id.unique(), df.columns)
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for start_view in views:
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end_view = start_view + 2
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end_view = start_view + view_offset
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start_idx = df.index[(df['current_view'] == start_view)][0]
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end_idx = df.index[(df['current_view'] == end_view)][two3rd-1]
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start_step = df.iloc[start_idx].step_id
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end_step = df.iloc[end_idx].step_id
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view2fin_time[start_view] = end_step - start_step
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#print(f'TEST {conf["stream_settings"]["path"]}, {view2fin_time[start_view]}, {(start_view, start_idx, start_step)}, {(end_idx, end_view, end_step)}')
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log.debug(f'{start_view}({start_idx}), {end_view}({end_idx}) : {end_step} - {start_step} = {view2fin_time[start_view]}')
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if not plot:
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@ -81,17 +93,22 @@ def compute_view_finalisation_times(df, conf, oprefix, simtype, tag="tag", plot=
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plt.show()
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plt.savefig(f'{oprefix}-view-finalisation-times.pdf', format="pdf", bbox_inches="tight")
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# iterate over the different networks/overlay type and collect view finalisation times
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def compute_view_times(path, oprefix, otype):
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nwsize2vfins = {}
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#conf_fnames = next(walk(f'{path}/configs'), (None, None, []))[2]
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conf_fnames = glob.glob(f'{path}/configs/*_{otype}.json')
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print(conf_fnames, otype)
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for conf in conf_fnames:
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tag = os.path.splitext(os.path.basename(conf))[0]
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#cfile, dfile = f'{path}/configs/{conf}', f'{path}/output/{tag}.csv'
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cfile, dfile = f'{conf}', f'{path}/output/{tag}.csv'
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conf, df = read_json(cfile), read_csv(dfile)
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simtype = conf["stream_settings"]["path"].split("/")[1].split("_")[0]
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# simtype = conf["stream_settings"]["path"].split("/")[1].split("_")[0]
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simtype = conf["stream_settings"]["path"].split("_")[0].strip()
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view2fin = compute_view_finalisation_times(df, conf, oprefix, simtype, tag, plot=False)
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print(f'SIM:{simtype}', view2fin)
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if not view2fin: # < 2 views
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continue
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if simtype == "tree":
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@ -114,6 +131,8 @@ def compute_view_times(path, oprefix, otype):
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nwsize2vfins[num_nodes] = [(simtype, max_depth, view2fin, tag)]
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return nwsize2vfins
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# plot the view times, add log plots for comparison
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def plot_view_times(nwsize2vfins, simtype, oprefix, otype):
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logbands = {}
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logbands[simtype] = {}
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@ -166,6 +185,8 @@ def plot_view_times(nwsize2vfins, simtype, oprefix, otype):
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plt.close()
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return data
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# plot tree vs branch against the number of nodes; works only when #tree sims = # branch sims
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def plot_tree_vs_branch(tree, branch, oprefix):
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print(tree, branch)
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@ -202,6 +223,7 @@ def plot_tree_vs_branch(tree, branch, oprefix):
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app = typer.Typer()
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@app.command()
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def view(ctx: typer.Context,
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data_file: Path = typer.Option("config.json",
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@ -219,6 +241,7 @@ def view(ctx: typer.Context,
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conf, df = read_json(config_file), read_csv(data_file)
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compute_view_finalisation_times(df, conf, oprefix, simtype, tag, plot=True)
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@app.command()
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def views(ctx: typer.Context,
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path: Path = typer.Option("../",
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@ -241,8 +264,9 @@ def views(ctx: typer.Context,
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plot_tree_vs_branch(tree, branch, oprefix)
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@app.command()
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def other_commands():
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def test():
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pass
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