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https://github.com/TREX-CoE/Sherman-Morrison.git
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543 lines
18 KiB
Python
543 lines
18 KiB
Python
# Manage the view comparing a variable over different runs
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import time
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import pandas as pd
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from math import pi
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from bokeh.plotting import figure, curdoc
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from bokeh.embed import components
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from bokeh.models import Select, ColumnDataSource, Panel, Tabs, HoverTool, \
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TextInput, CheckboxGroup, TapTool, CustomJS
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import helper
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import plot
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##########################################################################
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class CompareRuns:
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# Helper functions related to CompareRuns
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# From an array of timestamps, returns the array of runs names (for the x
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# axis ticks), as well as the metadata (in a dict of arrays) associated to
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# this array (for the tooltips)
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def gen_x_series(self, timestamps):
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# Initialize the objects to return
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x_series = []
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x_metadata = dict(
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date=[],
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is_git_commit=[],
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hash=[],
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author=[],
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message=[]
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)
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# n == 0 means we want all runs, we also make sure not to go out of
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# bound if asked for more runs than we have
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n = self.current_n_runs
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if n == 0 or n > len(timestamps):
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n = len(timestamps)
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for i in range(0, n):
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# Get metadata associated to this run
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row_metadata = helper.get_metadata(
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self.metadata, timestamps[-i - 1])
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date = time.ctime(timestamps[-i - 1])
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# Fill the x series
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str = row_metadata["name"]
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x_series.insert(0, helper.get_metadata(
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self.metadata, timestamps[-i - 1])["name"])
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# Fill the metadata lists
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x_metadata["date"].insert(0, date)
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x_metadata["is_git_commit"].insert(
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0, row_metadata["is_git_commit"])
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x_metadata["hash"].insert(0, row_metadata["hash"])
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x_metadata["author"].insert(0, row_metadata["author"])
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x_metadata["message"].insert(0, row_metadata["message"])
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return x_series, x_metadata
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# Plots update function
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def update_plots(self):
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# Select all data matching current test/var/backend
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runs = self.data.loc[[self.widgets["select_test"].value],
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self.widgets["select_var"].value,
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self.widgets["select_backend"].value]
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timestamps = runs["timestamp"]
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x_series, x_metadata = self.gen_x_series(timestamps.sort_values())
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# Update source
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main_dict = runs.to_dict("series")
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main_dict["x"] = x_series
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# Add metadata (for tooltip)
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main_dict.update(x_metadata)
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# Select the last n runs only
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n = self.current_n_runs
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main_dict = {key: value[-n:] for key, value in main_dict.items()}
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# Generate ColumnDataSources for the 3 dotplots
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for stat in ["sigma", "s10", "s2"]:
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dict = {
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"%s_x" % stat: main_dict["x"],
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"is_git_commit": main_dict["is_git_commit"],
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"date": main_dict["date"],
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"hash": main_dict["hash"],
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"author": main_dict["author"],
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"message": main_dict["message"],
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stat: main_dict[stat],
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"nsamples": main_dict["nsamples"],
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}
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if stat == "s10" or stat == "s2":
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dict["%s_lower_bound" %
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stat] = main_dict["%s_lower_bound" %
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stat]
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# Filter outliers if the box is checked
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if len(self.widgets["outliers_filtering_compare"].active) > 0:
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outliers = helper.detect_outliers(dict[stat])
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dict[stat] = helper.remove_outliers(dict[stat], outliers)
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dict["%s_x" % stat] = helper.remove_outliers(
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dict["%s_x" % stat], outliers)
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# Assign ColumnDataSource
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self.sources["%s_source" % stat].data = dict
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# Generate ColumnDataSource for the boxplot
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dict = {
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"is_git_commit": main_dict["is_git_commit"],
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"date": main_dict["date"],
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"hash": main_dict["hash"],
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"author": main_dict["author"],
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"message": main_dict["message"],
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"x": main_dict["x"],
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"min": main_dict["min"],
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"quantile25": main_dict["quantile25"],
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"quantile50": main_dict["quantile50"],
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"quantile75": main_dict["quantile75"],
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"max": main_dict["max"],
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"mu": main_dict["mu"],
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"pvalue": main_dict["pvalue"],
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"nsamples": main_dict["nsamples"]
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}
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self.sources["boxplot_source"].data = dict
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# Update x axis
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helper.reset_x_range(
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self.plots["boxplot"],
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self.sources["boxplot_source"].data["x"]
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)
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helper.reset_x_range(
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self.plots["sigma_plot"],
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self.sources["sigma_source"].data["sigma_x"]
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)
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helper.reset_x_range(
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self.plots["s10_plot"],
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self.sources["s10_source"].data["s10_x"]
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)
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helper.reset_x_range(
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self.plots["s2_plot"],
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self.sources["s2_source"].data["s2_x"]
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)
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# Widgets' callback functions
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def update_test(self, attrname, old, new):
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# If the value is updated by the CustomJS, self.widgets["select_var"].value
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# won't be updated, so we have to look for that case and assign it
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# manually
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# "new" should be a list when updated by CustomJS
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if isinstance(new, list):
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# If filtering removed all options, we might have an empty list
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# (in this case, we just skip the callback and do nothing)
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if len(new) > 0:
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new = new[0]
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else:
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return
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if new != self.widgets["select_test"].value:
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# The callback will be triggered again with the updated value
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self.widgets["select_test"].value = new
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return
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# New list of available vars
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self.vars = self.data.loc[new]\
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.index.get_level_values("variable").drop_duplicates().tolist()
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self.widgets["select_var"].options = self.vars
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# Reset var selection if old one is not available in new vars
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if self.widgets["select_var"].value not in self.vars:
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self.widgets["select_var"].value = self.vars[0]
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# The update_var callback will be triggered by the assignment
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else:
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# Trigger the callback manually (since the plots need to be updated
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# anyway)
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self.update_var("", "", self.widgets["select_var"].value)
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def update_var(self, attrname, old, new):
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# If the value is updated by the CustomJS, self.widgets["select_var"].value
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# won't be updated, so we have to look for that case and assign it
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# manually
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# new should be a list when updated by CustomJS
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if isinstance(new, list):
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new = new[0]
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if new != self.widgets["select_var"].value:
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# The callback will be triggered again with the updated value
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self.widgets["select_var"].value = new
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return
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# New list of available backends
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self.backends = self.data.loc[self.widgets["select_test"].value, self.widgets["select_var"].value]\
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.index.get_level_values("vfc_backend").drop_duplicates().tolist()
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self.widgets["select_backend"].options = self.backends
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# Reset backend selection if old one is not available in new backends
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if self.widgets["select_backend"].value not in self.backends:
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self.widgets["select_backend"].value = self.backends[0]
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# The update_backend callback will be triggered by the assignment
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else:
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# Trigger the callback manually (since the plots need to be updated
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# anyway)
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self.update_backend("", "", self.widgets["select_backend"].value)
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def update_backend(self, attrname, old, new):
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# Simply update plots, since no other data is affected
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self.update_plots()
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def update_n_runs(self, attrname, old, new):
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# Simply update runs selection (value and string display)
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self.select_n_runs.value = new
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self.current_n_runs = self.n_runs_dict[self.select_n_runs.value]
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self.update_plots()
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def update_outliers_filtering(self, attrname, old, new):
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self.update_plots()
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# Bokeh setup functions
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def setup_plots(self):
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tools = "pan, wheel_zoom, xwheel_zoom, ywheel_zoom, reset, save"
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# Custom JS callback that will be used when tapping on a run
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# Only switches the view, a server callback is required to update plots
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# (defined inside template to avoid bloating server w/ too much JS code)
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js_tap_callback = "goToInspectRuns();"
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# Box plot
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self.plots["boxplot"] = figure(
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name="boxplot", title="Variable distribution over runs",
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plot_width=900, plot_height=400, x_range=[""],
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tools=tools, sizing_mode="scale_width"
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)
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box_tooltips = [
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("Git commit", "@is_git_commit"),
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("Date", "@date"),
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("Hash", "@hash"),
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("Author", "@author"),
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("Message", "@message"),
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("Min", "@min{%0.18e}"),
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("Max", "@max{%0.18e}"),
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("1st quartile", "@quantile25{%0.18e}"),
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("Median", "@quantile50{%0.18e}"),
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("3rd quartile", "@quantile75{%0.18e}"),
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("μ", "@mu{%0.18e}"),
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("p-value", "@pvalue"),
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("Number of samples", "@nsamples")
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]
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box_tooltips_formatters = {
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"@min": "printf",
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"@max": "printf",
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"@quantile25": "printf",
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"@quantile50": "printf",
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"@quantile75": "printf",
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"@mu": "printf"
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}
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plot.fill_boxplot(
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self.plots["boxplot"], self.sources["boxplot_source"],
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tooltips=box_tooltips,
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tooltips_formatters=box_tooltips_formatters,
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js_tap_callback=js_tap_callback,
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server_tap_callback=self.inspect_run_callback_boxplot,
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)
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self.doc.add_root(self.plots["boxplot"])
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# Sigma plot (bar plot)
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self.plots["sigma_plot"] = figure(
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name="sigma_plot", title="Standard deviation σ over runs",
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plot_width=900, plot_height=400, x_range=[""],
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tools=tools, sizing_mode="scale_width"
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)
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sigma_tooltips = [
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("Git commit", "@is_git_commit"),
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("Date", "@date"),
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("Hash", "@hash"),
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("Author", "@author"),
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("Message", "@message"),
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("σ", "@sigma"),
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("Number of samples", "@nsamples")
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]
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plot.fill_dotplot(
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self.plots["sigma_plot"], self.sources["sigma_source"], "sigma",
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tooltips=sigma_tooltips,
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js_tap_callback=js_tap_callback,
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server_tap_callback=self.inspect_run_callback_sigma,
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lines=True
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)
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self.doc.add_root(self.plots["sigma_plot"])
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# s plot (bar plot with 2 tabs)
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self.plots["s10_plot"] = figure(
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name="s10_plot", title="Significant digits s over runs",
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plot_width=900, plot_height=400, x_range=[""],
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tools=tools, sizing_mode="scale_width"
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)
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s10_tooltips = [
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("Git commit", "@is_git_commit"),
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("Date", "@date"),
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("Hash", "@hash"),
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("Author", "@author"),
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("Message", "@message"),
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("s", "@s10"),
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("s lower bound", "@s10_lower_bound"),
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("Number of samples", "@nsamples")
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]
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plot.fill_dotplot(
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self.plots["s10_plot"], self.sources["s10_source"], "s10",
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tooltips=s10_tooltips,
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js_tap_callback=js_tap_callback,
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server_tap_callback=self.inspect_run_callback_s10,
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lines=True,
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lower_bound=True
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)
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s10_tab = Panel(child=self.plots["s10_plot"], title="Base 10")
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self.plots["s2_plot"] = figure(
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name="s2_plot", title="Significant digits s over runs",
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plot_width=900, plot_height=400, x_range=[""],
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tools=tools, sizing_mode="scale_width"
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)
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s2_tooltips = [
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("Git commit", "@is_git_commit"),
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("Date", "@date"),
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("Hash", "@hash"),
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("Author", "@author"),
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("Message", "@message"),
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("s", "@s2"),
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("s lower bound", "@s2_lower_bound"),
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("Number of samples", "@nsamples")
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]
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plot.fill_dotplot(
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self.plots["s2_plot"], self.sources["s2_source"], "s2",
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tooltips=s2_tooltips,
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js_tap_callback=js_tap_callback,
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server_tap_callback=self.inspect_run_callback_s2,
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lines=True,
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lower_bound=True
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)
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s2_tab = Panel(child=self.plots["s2_plot"], title="Base 2")
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s_tabs = Tabs(
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name="s_tabs",
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tabs=[s10_tab, s2_tab],
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tabs_location="below"
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)
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self.doc.add_root(s_tabs)
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def setup_widgets(self):
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# Initial selections
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# Test/var/backend combination (we select all first elements at init)
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self.tests = self.data\
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.index.get_level_values("test").drop_duplicates().tolist()
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self.vars = self.data.loc[self.tests[0]]\
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.index.get_level_values("variable").drop_duplicates().tolist()
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self.backends = self.data.loc[self.tests[0], self.vars[0]]\
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.index.get_level_values("vfc_backend").drop_duplicates().tolist()
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# Custom JS callback that will be used client side to filter selections
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filter_callback_js = """
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selector.options = options.filter(e => e.includes(cb_obj.value));
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"""
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# Test selector widget
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# Number of runs to display
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# The dict structure allows us to get int value from the display string
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# in O(1)
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self.n_runs_dict = {
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"Last 3 runs": 3,
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"Last 5 runs": 5,
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"Last 10 runs": 10,
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"All runs": 0
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}
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# Contains all options strings
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n_runs_display = list(self.n_runs_dict.keys())
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# Will be used when updating plots (contains actual number to diplay)
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self.current_n_runs = self.n_runs_dict[n_runs_display[1]]
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# Selector widget
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self.widgets["select_test"] = Select(
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name="select_test", title="Test :",
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value=self.tests[0], options=self.tests
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)
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self.doc.add_root(self.widgets["select_test"])
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self.widgets["select_test"].on_change("value", self.update_test)
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self.widgets["select_test"].on_change("options", self.update_test)
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# Filter widget
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self.widgets["test_filter"] = TextInput(
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name="test_filter", title="Tests filter:"
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)
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self.widgets["test_filter"].js_on_change(
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"value",
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CustomJS(
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args=dict(
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options=self.tests,
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selector=self.widgets["select_test"]),
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code=filter_callback_js))
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self.doc.add_root(self.widgets["test_filter"])
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# Number of runs to display
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self.widgets["select_n_runs"] = Select(
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name="select_n_runs", title="Display :",
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value=n_runs_display[1], options=n_runs_display
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)
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self.doc.add_root(self.widgets["select_n_runs"])
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self.widgets["select_n_runs"].on_change("value", self.update_n_runs)
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# Variable selector widget
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self.widgets["select_var"] = Select(
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name="select_var", title="Variable :",
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value=self.vars[0], options=self.vars
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)
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self.doc.add_root(self.widgets["select_var"])
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self.widgets["select_var"].on_change("value", self.update_var)
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self.widgets["select_var"].on_change("options", self.update_var)
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# Backend selector widget
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self.widgets["select_backend"] = Select(
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name="select_backend", title="Verificarlo backend :",
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value=self.backends[0], options=self.backends
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)
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self.doc.add_root(self.widgets["select_backend"])
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self.widgets["select_backend"].on_change("value", self.update_backend)
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# Outliers filtering checkbox
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self.widgets["outliers_filtering_compare"] = CheckboxGroup(
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name="outliers_filtering_compare",
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labels=["Filter outliers"], active=[]
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)
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self.doc.add_root(self.widgets["outliers_filtering_compare"])
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self.widgets["outliers_filtering_compare"]\
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.on_change("active", self.update_outliers_filtering)
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# Communication methods
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# (to send/receive messages to/from master)
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# Callback to change view of Inspect runs when data is selected
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def inspect_run_callback(self, new, source_name, x_name):
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# In case we just unselected everything, then do nothing
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if new == []:
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return
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index = new[-1]
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run_name = self.sources[source_name].data[x_name][index]
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self.master.go_to_inspect(run_name)
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# Wrappers for each plot (since new is the index of the clicked element,
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# it is dependent of the plot because we could have filtered some outliers)
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# There doesn't seem to be an easy way to add custom parameters to a
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# Bokeh callback, so using wrappers seems to be the best solution for now
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def inspect_run_callback_boxplot(self, attr, old, new):
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self.inspect_run_callback(new, "boxplot_source", "x")
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def inspect_run_callback_sigma(self, attr, old, new):
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self.inspect_run_callback(new, "sigma_source", "sigma_x")
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def inspect_run_callback_s2(self, attr, old, new):
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self.inspect_run_callback(new, "s2_source", "s2_x")
|
||
|
||
def inspect_run_callback_s10(self, attr, old, new):
|
||
self.inspect_run_callback(new, "s10_source", "s10_x")
|
||
|
||
# Constructor
|
||
|
||
def __init__(self, master, doc, data, metadata):
|
||
|
||
self.master = master
|
||
|
||
self.doc = doc
|
||
self.data = data
|
||
self.metadata = metadata
|
||
|
||
self.sources = {
|
||
"boxplot_source": ColumnDataSource(data={}),
|
||
"sigma_source": ColumnDataSource(data={}),
|
||
"s10_source": ColumnDataSource(data={}),
|
||
"s2_source": ColumnDataSource(data={})
|
||
}
|
||
|
||
self.plots = {}
|
||
self.widgets = {}
|
||
|
||
# Setup Bokeh objects
|
||
self.setup_plots()
|
||
self.setup_widgets()
|
||
|
||
# At this point, everything should have been initialized, so we can
|
||
# show the plots for the first time
|
||
self.update_plots()
|