Overview#
This chapter explains how to visualize trace data as you expect. Gallery section shows which type of visualization is supported by CARET. CARET serves uniform visualization API to create such graphs.
Uniform API design#
CARET serves Plot
class to visualize trace data. The following sample code shows the basic usage of Plot
.
from caret_analyze import Application, Architecture, Lttng
from caret_analyze.plot import Plot
from bokeh.plotting import output_notebook, figure, show
output_notebook()
# Load recorded data
lttng = Lttng('/path/to/trace_data')
# Load an Architecture object
arch = Architecture('yaml', '/path/to/architecture_file')
# Map the architecture object to the recorded data
app = Application(arch, lttng)
# Focus on a target callback
callback = app.get_callback('/target/callback/name')
# Get plot object for visualizing callback frequency
# Plot.create_[Metrics]_[GraphType]_plot(data)
# is format to get a target data set to visualize
plot = Plot.create_frequency_timeseries_plot(callback)
# Assign a table to callback_df object
callback_df = plot.to_dataframe()
# Create a graph for frequency of callback execution
plot.show()
plot
object is obtained from Plot.create_[Metrics]_[GraphType]_plot(data)
. The argument of data
is, for example, a CallbackBase
-based object or a Communication
-based object. A list of CallbackBase
or Communication
is also acceptable as explained later.
Any of performance metrics such as latency
, frequency
, or period
is given as Metrics
. GraphType
is served to select a graph type such as time-series or histogram.
plot
object has following four method; to_dataframe()
, show()
, save()
, and figure()
.
to_dataframe()
method returns a table including time-series data on a given metrics. If you want to create another type of graph manually, you will get the table byto_dataframe()
method and convert it into the expected graph.show()
method creates a figure of time-series graph. In other words,show()
method visualizes the time-series data.save()
method saves the figure in an arbitrary path.figure()
method returns the corresponding figure handler. This method allows additional customization of the figure before it is displayed.
Visualization API#
This section lists methods to visualize several metrics. You will find a sample figure corresponding to metrics if you access the link. Some of methods are not designed according to uniform API design, and they are exception.
Callback#
create_frequency_timeseries_plot(callbacks: Collection[CallbackBase])
create_period_timeseries_plot(callbacks: Collection[CallbackBase])
create_latency_timeseries_plot(callbacks: Collection[CallbackBase])
create_callback_scheduling_plot
- Visualize callback scheduling
Communication#
create_frequency_timeseries_plot(communications: Collection[Communication])
create_period_timeseries_plot(data: [Communication])
create_latency_timeseries_plot(data: [Communication])
Here, CARET takes into account communication when both transmission and reception on a message are performed successfully without being lost. See Premise of communication for more details. Feel free to skip this page if you are not interested in.
Path#
create_message_flow_plot
- Visualize message flow of a target path
create_response_time_histogram_plot
chain_latency
Helper APIs#
CARET provides some APIs which can help users to focus on their respective interest.
Info
CARET analyze API document describes the parameters and returns of APIs.