from ..data.data import Data
from ..utils.constants import Constants as C
-from ..utils.utils import classify_anomalies, show_tooltip, gen_new_url
+from ..utils.utils import classify_anomalies, show_tooltip, gen_new_url, \
+ get_ttypes, get_cadences, get_test_beds, get_job, generate_options, \
+ set_job_params
from ..utils.url_processing import url_decode
from ..data.data import Data
from .tables import table_news
"""Initialization:
- save the input parameters,
- read and pre-process the data,
- - prepare data fro the control panel,
+ - prepare data for the control panel,
- read HTML layout file,
- read tooltips from the tooltip file.
# Prepare information for the control panel:
jobs = sorted(list(df_tst_info["job"].unique()))
- job_info = {
+ d_job_info = {
"job": list(),
"dut": list(),
"ttype": list(),
}
for job in jobs:
lst_job = job.split("-")
- job_info["job"].append(job)
- job_info["dut"].append(lst_job[1])
- job_info["ttype"].append(lst_job[3])
- job_info["cadence"].append(lst_job[4])
- job_info["tbed"].append("-".join(lst_job[-2:]))
- self.df_job_info = pd.DataFrame.from_dict(job_info)
+ d_job_info["job"].append(job)
+ d_job_info["dut"].append(lst_job[1])
+ d_job_info["ttype"].append(lst_job[3])
+ d_job_info["cadence"].append(lst_job[4])
+ d_job_info["tbed"].append("-".join(lst_job[-2:]))
+ self.job_info = pd.DataFrame.from_dict(d_job_info)
- self._default = self._set_job_params(C.NEWS_DEFAULT_JOB)
+ self._default = set_job_params(self.job_info, C.NEWS_DEFAULT_JOB)
# Pre-process the data:
def default(self) -> dict:
return self._default
- def _get_duts(self) -> list:
- """Get the list of DUTs from the pre-processed information about jobs.
-
- :returns: Alphabeticaly sorted list of DUTs.
- :rtype: list
- """
- return sorted(list(self.df_job_info["dut"].unique()))
-
- def _get_ttypes(self, dut: str) -> list:
- """Get the list of test types from the pre-processed information about
- jobs.
-
- :param dut: The DUT for which the list of test types will be populated.
- :type dut: str
- :returns: Alphabeticaly sorted list of test types.
- :rtype: list
- """
- return sorted(list(self.df_job_info.loc[(
- self.df_job_info["dut"] == dut
- )]["ttype"].unique()))
-
- def _get_cadences(self, dut: str, ttype: str) -> list:
- """Get the list of cadences from the pre-processed information about
- jobs.
-
- :param dut: The DUT for which the list of cadences will be populated.
- :param ttype: The test type for which the list of cadences will be
- populated.
- :type dut: str
- :type ttype: str
- :returns: Alphabeticaly sorted list of cadences.
- :rtype: list
- """
- return sorted(list(self.df_job_info.loc[(
- (self.df_job_info["dut"] == dut) &
- (self.df_job_info["ttype"] == ttype)
- )]["cadence"].unique()))
-
- def _get_test_beds(self, dut: str, ttype: str, cadence: str) -> list:
- """Get the list of test beds from the pre-processed information about
- jobs.
-
- :param dut: The DUT for which the list of test beds will be populated.
- :param ttype: The test type for which the list of test beds will be
- populated.
- :param cadence: The cadence for which the list of test beds will be
- populated.
- :type dut: str
- :type ttype: str
- :type cadence: str
- :returns: Alphabeticaly sorted list of test beds.
- :rtype: list
- """
- return sorted(list(self.df_job_info.loc[(
- (self.df_job_info["dut"] == dut) &
- (self.df_job_info["ttype"] == ttype) &
- (self.df_job_info["cadence"] == cadence)
- )]["tbed"].unique()))
-
- def _get_job(self, dut, ttype, cadence, testbed):
- """Get the name of a job defined by dut, ttype, cadence, test bed.
- Input information comes from the control panel.
-
- :param dut: The DUT for which the job name will be created.
- :param ttype: The test type for which the job name will be created.
- :param cadence: The cadence for which the job name will be created.
- :param testbed: The test bed for which the job name will be created.
- :type dut: str
- :type ttype: str
- :type cadence: str
- :type testbed: str
- :returns: Job name.
- :rtype: str
- """
- return self.df_job_info.loc[(
- (self.df_job_info["dut"] == dut) &
- (self.df_job_info["ttype"] == ttype) &
- (self.df_job_info["cadence"] == cadence) &
- (self.df_job_info["tbed"] == testbed)
- )]["job"].item()
-
- @staticmethod
- def _generate_options(opts: list) -> list:
- """Return list of options for radio items in control panel. The items in
- the list are dictionaries with keys "label" and "value".
-
- :params opts: List of options (str) to be used for the generated list.
- :type opts: list
- :returns: List of options (dict).
- :rtype: list
- """
- return [{"label": i, "value": i} for i in opts]
-
- def _set_job_params(self, job: str) -> dict:
- """Create a dictionary with all options and values for (and from) the
- given job.
-
- :params job: The name of job for and from which the dictionary will be
- created.
- :type job: str
- :returns: Dictionary with all options and values for (and from) the
- given job.
- :rtype: dict
- """
-
- lst_job = job.split("-")
- return {
- "job": job,
- "dut": lst_job[1],
- "ttype": lst_job[3],
- "cadence": lst_job[4],
- "tbed": "-".join(lst_job[-2:]),
- "duts": self._generate_options(self._get_duts()),
- "ttypes": self._generate_options(self._get_ttypes(lst_job[1])),
- "cadences": self._generate_options(self._get_cadences(
- lst_job[1], lst_job[3])),
- "tbeds": self._generate_options(self._get_test_beds(
- lst_job[1], lst_job[3], lst_job[4]))
- }
-
def add_content(self):
"""Top level method which generated the web page.
"""Add column with control panel. It is placed on the left side.
:returns: Column with the control panel.
- :rtype: dbc.col
+ :rtype: dbc.Col
"""
return dbc.Col(
"""Add column with tables. It is placed on the right side.
:returns: Column with tables.
- :rtype: dbc.col
+ :rtype: dbc.Col
"""
return dbc.Col(
]
)
]
- ),
+ )
]
)
class ControlPanel:
- """
+ """A class representing the control panel.
"""
def __init__(self, panel: dict, default: dict) -> None:
- """
+ """Initialisation of the control pannel by default values. If
+ particular values are provided (parameter "panel") they are set
+ afterwards.
+
+ :param panel: Custom values to be set to the control panel.
+ :param default: Default values to be set to the control panel.
+ :type panel: dict
+ :type defaults: dict
"""
self._defaults = {
self._panel[key] = panel[key]
def set(self, kwargs: dict) -> None:
+ """Set the values of the Control panel.
+
+ :param kwargs: key - value pairs to be set.
+ :type kwargs: dict
+ :raises KeyError: If the key in kwargs is not present in the Control
+ panel.
+ """
for key, val in kwargs.items():
if key in self._panel:
self._panel[key] = val
return self._panel
def get(self, key: str) -> any:
+ """Returns the value of a key from the Control panel.
+
+ :param key: The key which value should be returned.
+ :type key: str
+ :returns: The value of the key.
+ :rtype: any
+ :raises KeyError: If the key in kwargs is not present in the Control
+ panel.
+ """
return self._panel[key]
def values(self) -> list:
+ """Returns the values from the Control panel as a list.
+
+ :returns: The values from the Control panel.
+ :rtype: list
+ """
return list(self._panel.values())
def callbacks(self, app):
+ """Callbacks for the whole application.
+
+ :param app: The application.
+ :type app: Flask
+ """
@app.callback(
Output("control-panel", "data"), # Store
Input("dd-tbeds", "value"),
Input("url", "href")
)
- def _update_ctrl_panel(cp_data: dict, dut:str, ttype: str, cadence:str,
- tbed: str, href: str) -> tuple:
- """
+ def _update_application(cp_data: dict, dut: str, ttype: str,
+ cadence:str, tbed: str, href: str) -> tuple:
+ """Update the application when the event is detected.
+
+ :param cp_data: Current status of the control panel stored in
+ browser.
+ :param dut: Input - DUT name.
+ :param ttype: Input - Test type.
+ :param cadence: Input - The cadence of the job.
+ :param tbed: Input - The test bed.
+ :param href: Input - The URL provided by the browser.
+ :type cp_data: dict
+ :type dut: str
+ :type ttype: str
+ :type cadence: str
+ :type tbed: str
+ :type href: str
+ :returns: New values for web page elements.
+ :rtype: tuple
"""
ctrl_panel = self.ControlPanel(cp_data, self.default)
trigger_id = callback_context.triggered[0]["prop_id"].split(".")[0]
if trigger_id == "ri-duts":
- ttype_opts = self._generate_options(self._get_ttypes(dut))
+ ttype_opts = generate_options(get_ttypes(self.job_info, dut))
ttype_val = ttype_opts[0]["value"]
- cad_opts = self._generate_options(
- self._get_cadences(dut, ttype_val))
+ cad_opts = generate_options(
+ get_cadences(self.job_info, dut, ttype_val))
cad_val = cad_opts[0]["value"]
- tbed_opts = self._generate_options(
- self._get_test_beds(dut, ttype_val, cad_val))
+ tbed_opts = generate_options(get_test_beds(
+ self.job_info, dut, ttype_val, cad_val))
tbed_val = tbed_opts[0]["value"]
ctrl_panel.set({
"ri-duts-value": dut,
"dd-tbeds-value": tbed_val
})
elif trigger_id == "ri-ttypes":
- cad_opts = self._generate_options(
- self._get_cadences(ctrl_panel.get("ri-duts-value"), ttype))
+ cad_opts = generate_options(get_cadences(
+ self.job_info, ctrl_panel.get("ri-duts-value"), ttype))
cad_val = cad_opts[0]["value"]
- tbed_opts = self._generate_options(
- self._get_test_beds(ctrl_panel.get("ri-duts-value"),
+ tbed_opts = generate_options(get_test_beds(
+ self.job_info, ctrl_panel.get("ri-duts-value"),
ttype, cad_val))
tbed_val = tbed_opts[0]["value"]
ctrl_panel.set({
"dd-tbeds-value": tbed_val
})
elif trigger_id == "ri-cadences":
- tbed_opts = self._generate_options(
- self._get_test_beds(ctrl_panel.get("ri-duts-value"),
+ tbed_opts = generate_options(get_test_beds(
+ self.job_info, ctrl_panel.get("ri-duts-value"),
ctrl_panel.get("ri-ttypes-value"), cadence))
tbed_val = tbed_opts[0]["value"]
ctrl_panel.set({
if url_params:
new_job = url_params.get("job", list())[0]
if new_job:
- job_params = self._set_job_params(new_job)
+ job_params = set_job_params(self.job_info, new_job)
ctrl_panel = self.ControlPanel(None, job_params)
else:
ctrl_panel = self.ControlPanel(cp_data, self.default)
- job = self._get_job(
- ctrl_panel.get("ri-duts-value"),
- ctrl_panel.get("ri-ttypes-value"),
- ctrl_panel.get("ri-cadences-value"),
- ctrl_panel.get("dd-tbeds-value")
- )
- job = self._get_job(
+ job = get_job(
+ self.job_info,
ctrl_panel.get("ri-duts-value"),
ctrl_panel.get("ri-ttypes-value"),
ctrl_panel.get("ri-cadences-value"),
# See the License for the specific language governing permissions and
# limitations under the License.
-"""Instantiate the Statistics Dash applocation.
+"""Instantiate the News Dash application.
"""
import dash
# See the License for the specific language governing permissions and
# limitations under the License.
-"""
+"""The tables with news.
"""
import pandas as pd
def table_news(data: pd.DataFrame, job: str) -> list:
- """
+ """Generates the tables with news:
+ 1. Falied tests from the last run
+ 2. Regressions and progressions calculated from the last C.NEWS_TIME_PERIOD
+ days.
+
+ :param data: Trending data with calculated annomalies to be displayed in the
+ tables.
+ :param job: The job name.
+ :type data: pandas.DataFrame
+ :type job: str
"""
job_data = data.loc[(data["job"] == job)]
from copy import deepcopy
from ..utils.constants import Constants as C
-from ..utils.utils import show_tooltip, gen_new_url
+from ..utils.utils import show_tooltip, gen_new_url, get_date, get_ttypes, \
+ get_cadences, get_test_beds, get_job, generate_options, set_job_params
from ..utils.url_processing import url_decode
from ..data.data import Data
from .graphs import graph_statistics, select_data
class Layout:
- """
+ """The layout of the dash app and the callbacks.
"""
def __init__(self, app: Flask, html_layout_file: str,
graph_layout_file: str, data_spec_file: str, tooltip_file: str,
time_period: int=None) -> None:
- """
+ """Initialization:
+ - save the input parameters,
+ - read and pre-process the data,
+ - prepare data for the control panel,
+ - read HTML layout file,
+ - read tooltips from the tooltip file.
+
+ :param app: Flask application running the dash application.
+ :param html_layout_file: Path and name of the file specifying the HTML
+ layout of the dash application.
+ :param graph_layout_file: Path and name of the file with layout of
+ plot.ly graphs.
+ :param data_spec_file: Path and name of the file specifying the data to
+ be read from parquets for this application.
+ :param tooltip_file: Path and name of the yaml file specifying the
+ tooltips.
+ :param time_period: It defines the time period for data read from the
+ parquets in days from now back to the past.
+ :type app: Flask
+ :type html_layout_file: str
+ :type graph_layout_file: str
+ :type data_spec_file: str
+ :type tooltip_file: str
+ :type time_period: int
"""
# Inputs
self._time_period = data_time_period
jobs = sorted(list(data_stats["job"].unique()))
- job_info = {
+ d_job_info = {
"job": list(),
"dut": list(),
"ttype": list(),
}
for job in jobs:
lst_job = job.split("-")
- job_info["job"].append(job)
- job_info["dut"].append(lst_job[1])
- job_info["ttype"].append(lst_job[3])
- job_info["cadence"].append(lst_job[4])
- job_info["tbed"].append("-".join(lst_job[-2:]))
- self.df_job_info = pd.DataFrame.from_dict(job_info)
+ d_job_info["job"].append(job)
+ d_job_info["dut"].append(lst_job[1])
+ d_job_info["ttype"].append(lst_job[3])
+ d_job_info["cadence"].append(lst_job[4])
+ d_job_info["tbed"].append("-".join(lst_job[-2:]))
+ self.job_info = pd.DataFrame.from_dict(d_job_info)
- self._default = self._set_job_params(C.STATS_DEFAULT_JOB)
+ self._default = set_job_params(self.job_info, C.STATS_DEFAULT_JOB)
tst_info = {
"job": list(),
def default(self) -> any:
return self._default
- def _get_duts(self) -> list:
- """
- """
- return sorted(list(self.df_job_info["dut"].unique()))
-
- def _get_ttypes(self, dut: str) -> list:
- """
- """
- return sorted(list(self.df_job_info.loc[(
- self.df_job_info["dut"] == dut
- )]["ttype"].unique()))
-
- def _get_cadences(self, dut: str, ttype: str) -> list:
- """
- """
- return sorted(list(self.df_job_info.loc[(
- (self.df_job_info["dut"] == dut) &
- (self.df_job_info["ttype"] == ttype)
- )]["cadence"].unique()))
+ def add_content(self):
+ """Top level method which generated the web page.
- def _get_test_beds(self, dut: str, ttype: str, cadence: str) -> list:
- """
- """
- return sorted(list(self.df_job_info.loc[(
- (self.df_job_info["dut"] == dut) &
- (self.df_job_info["ttype"] == ttype) &
- (self.df_job_info["cadence"] == cadence)
- )]["tbed"].unique()))
+ It generates:
+ - Store for user input data,
+ - Navigation bar,
+ - Main area with control panel and ploting area.
- def _get_job(self, dut, ttype, cadence, testbed):
- """Get the name of a job defined by dut, ttype, cadence, testbed.
+ If no HTML layout is provided, an error message is displayed instead.
- Input information comes from control panel.
- """
- return self.df_job_info.loc[(
- (self.df_job_info["dut"] == dut) &
- (self.df_job_info["ttype"] == ttype) &
- (self.df_job_info["cadence"] == cadence) &
- (self.df_job_info["tbed"] == testbed)
- )]["job"].item()
-
- def _set_job_params(self, job: str) -> dict:
- """
+ :returns: The HTML div with teh whole page.
+ :rtype: html.Div
"""
- lst_job = job.split("-")
- return {
- "job": job,
- "dut": lst_job[1],
- "ttype": lst_job[3],
- "cadence": lst_job[4],
- "tbed": "-".join(lst_job[-2:]),
- "duts": self._generate_options(self._get_duts()),
- "ttypes": self._generate_options(self._get_ttypes(lst_job[1])),
- "cadences": self._generate_options(self._get_cadences(
- lst_job[1], lst_job[3])),
- "tbeds": self._generate_options(self._get_test_beds(
- lst_job[1], lst_job[3], lst_job[4]))
- }
- def add_content(self):
- """
- """
if self.html_layout:
return html.Div(
id="div-main",
def _add_navbar(self):
"""Add nav element with navigation panel. It is placed on the top.
+
+ :returns: Navigation bar.
+ :rtype: dbc.NavbarSimple
"""
return dbc.NavbarSimple(
id="navbarsimple-main",
def _add_ctrl_col(self) -> dbc.Col:
"""Add column with controls. It is placed on the left side.
+
+ :returns: Column with the control panel.
+ :rtype: dbc.Col
"""
return dbc.Col(
id="col-controls",
def _add_plotting_col(self) -> dbc.Col:
"""Add column with plots and tables. It is placed on the right side.
+
+ :returns: Column with tables.
+ :rtype: dbc.Col
"""
return dbc.Col(
id="col-plotting-area",
)
def _add_ctrl_panel(self) -> dbc.Row:
- """
+ """Add control panel.
+
+ :returns: Control panel.
+ :rtype: dbc.Row
"""
return dbc.Row(
id="row-ctrl-panel",
)
class ControlPanel:
+ """A class representing the control panel.
+ """
+
def __init__(self, panel: dict, default: dict) -> None:
+ """Initialisation of the control pannel by default values. If
+ particular values are provided (parameter "panel") they are set
+ afterwards.
+
+ :param panel: Custom values to be set to the control panel.
+ :param default: Default values to be set to the control panel.
+ :type panel: dict
+ :type defaults: dict
+ """
+
self._defaults = {
"ri-ttypes-options": default["ttypes"],
"ri-cadences-options": default["cadences"],
self._panel[key] = panel[key]
def set(self, kwargs: dict) -> None:
+ """Set the values of the Control panel.
+
+ :param kwargs: key - value pairs to be set.
+ :type kwargs: dict
+ :raises KeyError: If the key in kwargs is not present in the Control
+ panel.
+ """
for key, val in kwargs.items():
if key in self._panel:
self._panel[key] = val
return self._panel
def get(self, key: str) -> any:
+ """Returns the value of a key from the Control panel.
+
+ :param key: The key which value should be returned.
+ :type key: str
+ :returns: The value of the key.
+ :rtype: any
+ :raises KeyError: If the key in kwargs is not present in the Control
+ panel.
+ """
return self._panel[key]
def values(self) -> list:
- return list(self._panel.values())
+ """Returns the values from the Control panel as a list.
- @staticmethod
- def _generate_options(opts: list) -> list:
- return [{"label": i, "value": i} for i in opts]
+ :returns: The values from the Control panel.
+ :rtype: list
+ """
+ return list(self._panel.values())
- @staticmethod
- def _get_date(s_date: str) -> datetime:
- return datetime(int(s_date[0:4]), int(s_date[5:7]), int(s_date[8:10]))
def callbacks(self, app):
+ """Callbacks for the whole application.
+
+ :param app: The application.
+ :type app: Flask
+ """
@app.callback(
Output("control-panel", "data"), # Store
Input("dpr-period", "end_date"),
Input("url", "href")
)
- def _update_ctrl_panel(cp_data: dict, dut:str, ttype: str, cadence:str,
+ def _update_ctrl_panel(cp_data: dict, dut: str, ttype: str, cadence:str,
tbed: str, start: str, end: str, href: str) -> tuple:
- """
+ """Update the application when the event is detected.
+
+ :param cp_data: Current status of the control panel stored in
+ browser.
+ :param dut: Input - DUT name.
+ :param ttype: Input - Test type.
+ :param cadence: Input - The cadence of the job.
+ :param tbed: Input - The test bed.
+ :param start: Date and time where the data processing starts.
+ :param end: Date and time where the data processing ends.
+ :param href: Input - The URL provided by the browser.
+ :type cp_data: dict
+ :type dut: str
+ :type ttype: str
+ :type cadence: str
+ :type tbed: str
+ :type start: str
+ :type end: str
+ :type href: str
+ :returns: New values for web page elements.
+ :rtype: tuple
"""
ctrl_panel = self.ControlPanel(cp_data, self.default)
- start = self._get_date(start)
- end = self._get_date(end)
+ start = get_date(start)
+ end = get_date(end)
# Parse the url:
parsed_url = url_decode(href)
trigger_id = callback_context.triggered[0]["prop_id"].split(".")[0]
if trigger_id == "ri-duts":
- ttype_opts = self._generate_options(self._get_ttypes(dut))
+ ttype_opts = generate_options(get_ttypes(self.job_info, dut))
ttype_val = ttype_opts[0]["value"]
- cad_opts = self._generate_options(
- self._get_cadences(dut, ttype_val))
+ cad_opts = generate_options(get_cadences(
+ self.job_info, dut, ttype_val))
cad_val = cad_opts[0]["value"]
- tbed_opts = self._generate_options(
- self._get_test_beds(dut, ttype_val, cad_val))
+ tbed_opts = generate_options(get_test_beds(
+ self.job_info, dut, ttype_val, cad_val))
tbed_val = tbed_opts[0]["value"]
ctrl_panel.set({
"ri-duts-value": dut,
"dd-tbeds-value": tbed_val
})
elif trigger_id == "ri-ttypes":
- cad_opts = self._generate_options(
- self._get_cadences(ctrl_panel.get("ri-duts-value"), ttype))
+ cad_opts = generate_options(get_cadences(
+ self.job_info, ctrl_panel.get("ri-duts-value"), ttype))
cad_val = cad_opts[0]["value"]
- tbed_opts = self._generate_options(
- self._get_test_beds(ctrl_panel.get("ri-duts-value"),
- ttype, cad_val))
+ tbed_opts = generate_options(get_test_beds(
+ self.job_info, ctrl_panel.get("ri-duts-value"), ttype,
+ cad_val))
tbed_val = tbed_opts[0]["value"]
ctrl_panel.set({
"ri-ttypes-value": ttype,
"dd-tbeds-value": tbed_val
})
elif trigger_id == "ri-cadences":
- tbed_opts = self._generate_options(
- self._get_test_beds(ctrl_panel.get("ri-duts-value"),
+ tbed_opts = generate_options(get_test_beds(
+ self.job_info, ctrl_panel.get("ri-duts-value"),
ctrl_panel.get("ri-ttypes-value"), cadence))
tbed_val = tbed_opts[0]["value"]
ctrl_panel.set({
new_start = url_params.get("start", list())[0]
new_end = url_params.get("end", list())[0]
if new_job and new_start and new_end:
- start = self._get_date(new_start)
- end = self._get_date(new_end)
- job_params = self._set_job_params(new_job)
+ start = get_date(new_start)
+ end = get_date(new_end)
+ job_params = set_job_params(self.job_info, new_job)
ctrl_panel = self.ControlPanel(None, job_params)
else:
ctrl_panel = self.ControlPanel(cp_data, self.default)
- job = self._get_job(
- ctrl_panel.get("ri-duts-value"),
- ctrl_panel.get("ri-ttypes-value"),
- ctrl_panel.get("ri-cadences-value"),
- ctrl_panel.get("dd-tbeds-value")
- )
- job = self._get_job(
+ job = get_job(
+ self.job_info,
ctrl_panel.get("ri-duts-value"),
ctrl_panel.get("ri-ttypes-value"),
ctrl_panel.get("ri-cadences-value"),
prevent_initial_call=True
)
def _download_data(cp_data: dict, start: str, end: str, n_clicks: int):
- """
+ """Download the data
+
+ :param cp_data: Current status of the control panel stored in
+ browser.
+ :param start: Date and time where the data processing starts.
+ :param end: Date and time where the data processing ends.
+ :param n_clicks: Number of clicks on the button "Download".
+ :type cp_data: dict
+ :type start: str
+ :type end: str
+ :type n_clicks: int
+ :returns: dict of data frame content (base64 encoded) and meta data
+ used by the Download component.
+ :rtype: dict
"""
if not (n_clicks):
raise PreventUpdate
ctrl_panel = self.ControlPanel(cp_data, self.default)
- job = self._get_job(
+ job = get_job(
+ self.job_info,
ctrl_panel.get("ri-duts-value"),
ctrl_panel.get("ri-ttypes-value"),
ctrl_panel.get("ri-cadences-value"),
ctrl_panel.get("dd-tbeds-value")
)
- start = datetime(int(start[0:4]), int(start[5:7]), int(start[8:10]))
- end = datetime(int(end[0:4]), int(end[5:7]), int(end[8:10]))
- data = select_data(self.data, job, start, end)
+ data = select_data(self.data, job, get_date(start), get_date(end))
data = data.drop(columns=["job", ])
return dcc.send_data_frame(data.T.to_csv, f"{job}-stats.csv")
)
def _show_metadata_from_graphs(
passed_data: dict, duration_data: dict) -> tuple:
- """
+ """Generates the data for the offcanvas displayed when a particular
+ point in a graph is clicked on.
+
+ :param passed_data: The data from the clicked point in the graph
+ displaying the pass/fail data.
+ :param duration_data: The data from the clicked point in the graph
+ displaying the duration data.
+ :type passed_data: dict
+ :type duration data: dict
+ :returns: The data to be displayed on the offcanvas (job statistics
+ and the list of failed tests) and the information to show the
+ offcanvas.
+ :rtype: tuple(list, bool)
"""
if not (passed_data or duration_data):
# See the License for the specific language governing permissions and
# limitations under the License.
-"""Instantiate the Statistics Dash applocation.
+"""Instantiate the Statistics Dash application.
"""
import dash
# The default job displayed when the page is loaded first time.
NEWS_DEFAULT_JOB = "csit-vpp-perf-mrr-daily-master-2n-icx"
- # Time period for regressions and progressions.
+ # Time period for regressions and progressions. Be CAREFULL with this
+ # number. Setting it too high causes long processing time during the
+ # application start-up.
+ # If NEWS_TIME_PERIOD = 180, it takes approx. 35 minutes to calculate
+ # annomalies for all tests.
NEWS_TIME_PERIOD = 21 # [days]
############################################################################
"""Function used by Dash applications.
"""
+import pandas as pd
import dash_bootstrap_components as dbc
from numpy import isnan
its index.
:param idx: Index of the color.
- :type idex: int
+ :type idx: int
:returns: Color defined by hex code.
:trype: str
"""
return datetime(int(s_date[0:4]), int(s_date[5:7]), int(s_date[8:10]))
-def gen_new_url(parsed_url: dict, params: dict) -> str:
+def gen_new_url(url_components: dict, params: dict) -> str:
"""Generate a new URL with encoded parameters.
- :param parsed_url: Dictionary with URL elements. It should contain "scheme",
- "netloc" and "path".
- :param params: URL parameters to be encoded to the URL.
+ :param url_components: Dictionary with URL elements. It should contain
+ "scheme", "netloc" and "path".
+ :param url_components: URL parameters to be encoded to the URL.
:type parsed_url: dict
:type params: dict
:returns Encoded URL with parameters.
:rtype: str
"""
- if parsed_url:
+ if url_components:
return url_encode(
{
- "scheme": parsed_url.get("scheme", ""),
- "netloc": parsed_url.get("netloc", ""),
- "path": parsed_url.get("path", ""),
+ "scheme": url_components.get("scheme", ""),
+ "netloc": url_components.get("netloc", ""),
+ "path": url_components.get("path", ""),
"params": params
}
)
else:
return str()
+
+
+def get_duts(df: pd.DataFrame) -> list:
+ """Get the list of DUTs from the pre-processed information about jobs.
+
+ :param df: DataFrame with information about jobs.
+ :type df: pandas.DataFrame
+ :returns: Alphabeticaly sorted list of DUTs.
+ :rtype: list
+ """
+ return sorted(list(df["dut"].unique()))
+
+
+def get_ttypes(df: pd.DataFrame, dut: str) -> list:
+ """Get the list of test types from the pre-processed information about
+ jobs.
+
+ :param df: DataFrame with information about jobs.
+ :param dut: The DUT for which the list of test types will be populated.
+ :type df: pandas.DataFrame
+ :type dut: str
+ :returns: Alphabeticaly sorted list of test types.
+ :rtype: list
+ """
+ return sorted(list(df.loc[(df["dut"] == dut)]["ttype"].unique()))
+
+
+def get_cadences(df: pd.DataFrame, dut: str, ttype: str) -> list:
+ """Get the list of cadences from the pre-processed information about
+ jobs.
+
+ :param df: DataFrame with information about jobs.
+ :param dut: The DUT for which the list of cadences will be populated.
+ :param ttype: The test type for which the list of cadences will be
+ populated.
+ :type df: pandas.DataFrame
+ :type dut: str
+ :type ttype: str
+ :returns: Alphabeticaly sorted list of cadences.
+ :rtype: list
+ """
+ return sorted(list(df.loc[(
+ (df["dut"] == dut) &
+ (df["ttype"] == ttype)
+ )]["cadence"].unique()))
+
+
+def get_test_beds(df: pd.DataFrame, dut: str, ttype: str, cadence: str) -> list:
+ """Get the list of test beds from the pre-processed information about
+ jobs.
+
+ :param df: DataFrame with information about jobs.
+ :param dut: The DUT for which the list of test beds will be populated.
+ :param ttype: The test type for which the list of test beds will be
+ populated.
+ :param cadence: The cadence for which the list of test beds will be
+ populated.
+ :type df: pandas.DataFrame
+ :type dut: str
+ :type ttype: str
+ :type cadence: str
+ :returns: Alphabeticaly sorted list of test beds.
+ :rtype: list
+ """
+ return sorted(list(df.loc[(
+ (df["dut"] == dut) &
+ (df["ttype"] == ttype) &
+ (df["cadence"] == cadence)
+ )]["tbed"].unique()))
+
+
+def get_job(df: pd.DataFrame, dut, ttype, cadence, testbed):
+ """Get the name of a job defined by dut, ttype, cadence, test bed.
+ Input information comes from the control panel.
+
+ :param df: DataFrame with information about jobs.
+ :param dut: The DUT for which the job name will be created.
+ :param ttype: The test type for which the job name will be created.
+ :param cadence: The cadence for which the job name will be created.
+ :param testbed: The test bed for which the job name will be created.
+ :type df: pandas.DataFrame
+ :type dut: str
+ :type ttype: str
+ :type cadence: str
+ :type testbed: str
+ :returns: Job name.
+ :rtype: str
+ """
+ return df.loc[(
+ (df["dut"] == dut) &
+ (df["ttype"] == ttype) &
+ (df["cadence"] == cadence) &
+ (df["tbed"] == testbed)
+ )]["job"].item()
+
+
+def generate_options(opts: list) -> list:
+ """Return list of options for radio items in control panel. The items in
+ the list are dictionaries with keys "label" and "value".
+
+ :params opts: List of options (str) to be used for the generated list.
+ :type opts: list
+ :returns: List of options (dict).
+ :rtype: list
+ """
+ return [{"label": i, "value": i} for i in opts]
+
+
+def set_job_params(df: pd.DataFrame, job: str) -> dict:
+ """Create a dictionary with all options and values for (and from) the
+ given job.
+
+ :param df: DataFrame with information about jobs.
+ :params job: The name of job for and from which the dictionary will be
+ created.
+ :type df: pandas.DataFrame
+ :type job: str
+ :returns: Dictionary with all options and values for (and from) the
+ given job.
+ :rtype: dict
+ """
+
+ l_job = job.split("-")
+ return {
+ "job": job,
+ "dut": l_job[1],
+ "ttype": l_job[3],
+ "cadence": l_job[4],
+ "tbed": "-".join(l_job[-2:]),
+ "duts": generate_options(get_duts(df)),
+ "ttypes": generate_options(get_ttypes(df, l_job[1])),
+ "cadences": generate_options(get_cadences(df, l_job[1], l_job[3])),
+ "tbeds": generate_options(
+ get_test_beds(df, l_job[1], l_job[3], l_job[4]))
+ }