Agile metrics and summary data extracted from JIRA
Project description
JIRA Agile Metrics
A tool to extract Agile metrics and charts from JIRA projects.
Installation
Requires Python 3.6 or later.
Install Python 3 and the pip
package manager. Then run:
$ pip install jira-agile-metrics
You can do this globally, but you may want to use a virtual Python environment
(venv
) instead to keep things self-contained.
See The Hitchhiker's Guide to Python for the full details about how to install Python and venvs.
This should install a binary called jira-agile-metrics
in the relevant bin
directory. You can test it using:
$ jira-agile-metrics --help
... which should print a help message.
Using Docker
If you prefer, you can use Docker to install and run
jira-agile-metrics
with all the relevant dependencies in place. After
installing Docker, run:
$ docker run -it --rm -v $PWD:/data optilude/jira-agile-metrics:latest config.yml
This will run jira-agile-metrics
with the configuration file config.yml
from
the current directory, writing outputs also to the current directory. The
argument -v $PWD:/data
mounts the /data
volume, where output files will be
written, to the current working directory. You can of course specify a
different bind mount.
Using Docker in batch mode
There is a second Docker image, which can be used to run multiple config files in batch mode, for example to generate metrics overnight.
To use it, create a directory containing one or more configuration files, with
the extension .yml
or .yaml
, and a different directory for the outputs.
Assuming these are /path/to/config
and /path/to/output
, you can run
the following Docker command periodically, e.g. using cron
or another
scheduler:
$ docker run --rm -v /path/to/config:/config -v /path/to/output:/data optilude/jira-agile-metrics:batch-latest
When this is finished, you should see a directory under the output
directory
for each of the config files in the config
directory, containing the reports
and charts. You will also find a file called metrics.log
containing the log
output during the run, which may be helpful in diagnosing any problems.
Any command line arguments passed to docker run
after the image name will be
passed directly to jira-agile-metrics
. So, for example, if you wanted to use
the -n
option to limit the number of results fetched from JIRA (for testing
purposes), you can pass -n 10
(or some different number) at the end of the
command line above.
Usage
The basic usage pattern is to run jira-agile-metrics
with a configuration
file, written in YAML format (see below), which describes:
- how to connect to a remote JIRA instance (this can also be set using command line options);
- what metrics (spreadsheet-like data files, charts as images) to output;
- various settings used to calculate those metrics; and
- a description of the stages of the workflow the relevant JIRA tickets go through.
The tool will then connect to JIRA using its web services API, run a query to the relevant tickets and their history, and calculate the requierd metrics.
The outputs are written to local filesystem files. Data files can be written in CSV, XLSX or JSON formats (depending on the extension of the desired output file), whilst charts are written as PNG images.
Server mode
jira-agile-metrics
comes with a simple web server that can be used to produce
metrics by uploading a configuration file and downloading a ZIP file with data
and charts. To start it, run:
$ jira-agile-metrics --server 5000
This will start a server on port 5000
(you can also specify a bind host name
or IP address, e.g. 0.0.0.0:5000
). Visit this address in a web browser and
upload a file.
In this mode, all other command line options are ignored.
Note: The web server is designed for low-volume usage only, and does not have a sophisticated security model. It is simply a more accessible front end to the features of the command line tool. The server will wait, synchronously, whilst JIRA is queried and charts are produced, which can take a long time. During this time, the browser will wait, and threads will block.
Warning: The web server does not encrypt requests, which means that by
default JIRA credentials are transmitted in plain-text. You are strongly adviced
to configure a reverse proxy (e.g. nginx
) with SSL enabled in front of it.
Using Docker to run the web server
There is a separate Docker image for running the web server, which uses nginx
and uwsgi
for improved performance and stability (but still not SSL, which
would need to be configured with a domain-specific certificate):
$ docker run -d --rm -p 8080:80 --name jira_metrics optilude/jira-agile-metrics:server-latest
This will run the server in daemon mode and bind it to port 8080
on the local
host. To stop it, run:
$ docker stop jira_metrics
See the Docker documentation for more details.
An important note about passwords
The tool uses a simple username/password combination to connect to JIRA. You need to ensure this user exists in the remote JIRA instance, and has the required permissions.
There are three ways to provide the credentials for JIRA -- in particular, the password, which should be kept scret. You should think carefully about which approach makes most sense for you.
- The safest option is to not set it in either the configuration file, or as a command line option. In this case, you will be prompted to input a password (and username, if you didn't set this either) each time the tool is run.
- You can use the
--username
and/or--password
command line options to set credentails when you invoke thejira-agile-metrics
command. This keeps them out of the configuration file, but if you do this in an interactive shell that records command history (i.e. virtually all of them), your password will likely be stored in plain text in the command history! - If you are confident you can keep the configuration file secret, you can
store them there, under the
Connection
section (see below).
What issues should you include?
The most common use case is to calculate metrics for a team using a JIRA issue
type called something like Story
, going through a workflow with stages like
Backlog
, Committed
, Elaboration
, Build
, Code review
, Test
, and Done
,
and allowing a set of resolutions like Completed
, Withdrawn
, and Duplicate
.
jira-agile-metrics
lets you use JIRA JQL syntax to specify which issues you
are interested in. See the JIRA documentation for more details (or construct a
search using the JIRA UI and then have JIRA show you the corresponding JQL).
Creating a configuration file
Here is an example configuration file for a basic example using the workflow above:
# How to connect to JIRA. Can also include `Username` and `Password`
Connection:
Domain: https://myjira.atlassian.net # your JIRA instance
# What issues to search for. Uses JQL syntax.
Query: Project=ABC AND IssueType=Story AND (Resolution IS NULL OR Resolution IN (Completed, Withdrawn))
# The workflow we want to analyse. By convention, the first stage should be
# the backlog / initial state, and the final stage should indicate the work
# is done.
#
# We map analytics names to JIRA status names. It's possible to collapse
# multiple JIRA statuses into a single workflow stage, as with `QA` below.
Workflow:
Backlog: Backlog
Committed: Committed
Elaboration: Elaboration
Build: Build
QA:
- Code review
- Test
Done: Done
# What outputs to produce. These are all optional. If an option isn't set
# the relevant metric will not be produced.
Output:
# CSV files with raw data for input to other tools or further analysis in a spreadsheet
# If you use .json or .xslx as the extension, you can get JSON data files or Excel
# spreadsheets instead
Cycle time data: cycletime.csv
CFD data: cfd.csv
Scatterplot data: scatterplot.csv
Histogram data: histogram.csv
Throughput data: throughput.csv
Percentiles data: percentiles.csv
# Various charts
Scatterplot chart: scatterplot.png
Scatterplot chart title: Cycle time scatter plot
Histogram chart: histogram.png
Histogram chart title: Cycle time histogram
CFD chart: cfd.png
CFD chart title: Cumulative Flow Diagram
Throughput chart: throughput.png
Throughput chart title: Throughput trend
Burnup chart: burnup.png
Burnup chart title: Burn-up
Burnup forecast chart: burnup-forecast.png
Burnup forecast chart title: Burn-up forecast
Burnup forecast chart trials: 100 # number of Monte Carlo trials to run to estimate completion date
# Burnup forecast chart throughput window: 60 # Days in the past to use for calculating historical throughput
# Burnup forecast chart throughput window end: 2018-06-01 # Calculate throughput window to this date (defaults to today)
# Burnup forecast chart target: 100 # items to complete in total; by default uses the current size of the backlog
# Burnup forecast chart deadline: 2018-06-01 # deadline date, in ISO format; if not set, no deadline is drawn.
# Burnup forecast chart deadline confidence: .85 # percentile to use to compare forecast to deadline
WIP chart: wip.png
WIP chart title: Work in Progress
Ageing WIP chart: ageing-wip.png
Ageing WIP chart title: Ageing WIP
Net flow chart: net-flow.png
Net flow chart title: Net flow
Hint: If you prefer to manage your queries as saved filters in JIRA, you can
use the special JQL syntax of filter=123
, where 123
is the filter ID.
If you save this file as e.g. config.yaml
, you can run:
$ jira-agile-metrics config.yaml
This should prompt you for a username and password, and then connect to your
JIRA instance, fetch the issues matching the query, calculate metrics, and
write a number of CSV and PNG files to the current working directory (you can
use the --output-directory
option to write to another directory).
When testing configuration, it is often helpful to fetch just a small number of
issues to speed things up. You can either do this by making your query more
restrictive, or by using the -n
flag to limit the number of issues fetched:
$ jira-agile-metrics -n 20 config.yaml
If you want more information about what's going on, use the -v
flag:
$ jira-agile-metrics -v config.yaml
And if you are realy curious:
$ jira-agile-metrics -vv config.yaml
Available metrics
jira-agile-metrics
can produce a number of data files and charts, which can
be enabled in the Output
section of the configuration file, or with a
corresponding command line option.
Note: In the configuration file, you can specify output file names, but not absolute or relative paths. Files will always be written to the current working directory. This is to prevent unexpeced behaviour and the potential of overwriting other files when configuration files are moved around or used on a remote machine. No such restriction applies to output files specified in command line arguments.
Cycle time details
Details about each ticket and the date it entered each stage of the workflow. Both the CSV and JSON versions of this file can be used by the Actionable Agile Analytics tool, which offers powerful, interactive analysis of Agile flow.
In the configuration file:
Output:
Cycle time data: cycletime.csv
You can also use .json
or .xlsx
formats.
Note: the "Blocked Days" calculation relies on the "Flagged" feature in JIRA, showing the total number of days (rounded up to the nearest whole day) that each ticket was flagged as impeded. Impediments raised whilst the ticket is in the backlog or done do not count.
Cumulative Flow Diagram (CFD)
Raw data for creating a valid Cumulative Flow Diagram, in spreadsheet format, and/or an image file of the same. The CFD shows the number of work items in each stage of the flow as a stacked area chart, day by day. This allows us to visualise WIP, cycle time, and throughput.
In the configuration file:
Output:
CFD data: cfd.csv
CFD chart: cfd.png
CFD chart title: Cumulative Flow Diagram
You can also use .json
or .xlsx
formats for the data file.
To only show the 30 most recent days in the chart:
CFD window: 30
Cycle time scatter plot
Raw data for creating a valid Cycle Time scatter plot graph, and/or an image file of the same. This chart plots the end-to-end cycle time (excluding time spent in the backlog) for each work item against its completion date, and overlays quantiles (e.g. 85% of tickets took 18 days or fewer)
In the configuration file:
Output:
Scatterplot data: scatterplot.csv
Scatterplot chart: scatterplot.png
Scatterplot chart title: Cycle time scatter plot
You can also use .json
or .xlsx
formats for the data file.
By default, the quantiles used are the 50th, 85th and 95th percentile, but you
can specify a different list with the Quantiles
option under Output
:
Quantiles:
- 0.3
- 0.5
- 0.75
- 0.85
- 0.95
Note that this option affects all charts that use quantiles.
To get the quantile values (number of day at each quantile) in a data file, use:
Percentiles data: percentiles.csv
To only show the 30 most recent days in the chart:
Scatterplot window: 30
Cycle time histogram
This is a different view of the cycle time , calculatd and/or plotted as a histogram.
In the configuration file:
Output:
Histogram data: histogram.csv
Histogram chart: histogram.png
Histogram chart title: Cycle time histogram
You can also use .json
or .xlsx
formats for the data file.
This also respects the Quantiles
option (see above).
To only show the 30 most recent days in the chart:
Histogram window: 30
Throughput
Weekly throughput, i.e. the number of items completed week by week. The chart also shows a trend line.
In the configuration file:
Output:
Throughput data: throughput.csv
Throughput chart: throughput.png
Throughput chart title: Throughput trend
You can also use .json
or .xlsx
formats for the data file.
To change the frequency from weekly to something else, use:
Throughput frequency: 1D
Here, 1D
means daily. The default is 1W-MON
, which means weekly starting on
Mondays.
To only show the 6 most recent periods (e.g. weeks) in the chart:
Throughput window: 6
WIP box plot
Shows a box plot of WIP, week by week (or some other frequency).
In the configuration file:
WIP chart: wip.png
WIP chart title: Work in Progress
To change the frequency from weekly to something else, use:
WIP frequency: 1D
Here, 1D
means daily. The default is 1W-MON
, which means weekly starting on
Mondays.
To only show the 6 most recent periods (e.g. weeks) in the chart:
WIP window: 6
Net flow chart
Shows the difference between arrivals and departures week on week. In a perfectly stable system, the net flow would be 0.
In the configuration file:
Net flow chart: net-flow.png
Net flow chart title: Net flow
To change the frequency from weekly to something else, use:
Net flow frequency: 1D
Here, 1D
means daily. The default is 1W-MON
, which means weekly starting on
Mondays.
To only show the 6 most recent periods (e.g. weeks) in the chart:
Net flow window: 6
Ageing WIP chart
Shows the cycle time to date for each work item, grouped into the stages of the workflow. This can help identify slow-moving tickets.
In the configuration file:
Ageing WIP chart: ageing-wip.png
Ageing WIP chart title: Ageing WIP
Burn-up chart
A basic Agile burn-up chart, based on a count of items completed and in the backlog.
In the configuration file:
Burnup chart: burnup.png
Burnup chart title: Burn-up
To only show the 30 most recent days in the chart:
Burnup window: 30
Burn-up chart with forecast line
A more advanced version of the burn-up chart, which will run a Monte Carlo simulation based on historical throughput to forecast a completion date for the scope.
The simulation can be calibrated with a series of options to set:
- The number of trials to run. Each trial will be drawn as a hypotehtical burn-up to completion.
- The window of time from which to sample historical throughput. This should be representative of the near future, and ideally about 6-12 weeks long.
- The target to aim for, as a number of stories to have completed. Defaults to the size of the backlog, but can be set to an assumed figure.
- A deadline date, which, if set, can be compared to a forecast at a given confidence interval.
In the configuration file:
Burnup forecast chart: burnup-forecast.png
Burnup forecast chart title: Burn-up forecast
Burnup forecast chart trials: 100 # number of Monte Carlo trials to run to estimate completion date
Burnup forecast chart throughput window: 60 # Days in the past to use for calculating historical throughput
Burnup forecast chart throughput window end: 2018-06-01 # Calculate throughput window to this date (defaults to last day of burnup)
Burnup forecast chart target: 100 # items to complete in total; by default uses the current size of the backlog
Burnup forecast chart deadline: 2018-06-01 # deadline date, in ISO format; if not set, no deadline is drawn.
Burnup forecast chart deadline confidence: .85 # percentile to use to compare forecast to deadline
To only show the 30 most recent days in the chart:
Burnup forecast window: 30
Impediments
If you use the "Flagged" feature in JIRA to mark (and unmark) tickets as impeded when they are blocked, you can produce charts showing the number of impediments raised, and the cumulative amount of time tickets have spent being impeded, broken down by month and the workflow stage a ticket was in when the impeded flag was set. You can also write out the impediment events to a file.
The charts can be enabled with:
Impediments data: impediments.csv
Impediments window: 6
Impediments chart: impediments.png
Impediments chart title: Number of impediments
Impediments days chart: impediments-days.png
Impediments days chart title: Total impeded days
The Impediments window
, which is optional, can be used to limit the chart to
showing only the most recent months' data: six in this case.
The Impediments chart
will count the number of impediment events that were
active each month, i.e. a ticket was flagged as impeded at some point during
the month.
The Impediments days chart
uses the same underlying logic, but instead of
counting impediments, it sums the number of days of all impediments in each
month.
Note that:
- Impediments raised against tickets in the backlog or in the "done" column are not shown.
- If a ticket is flagged and then resolved before being unflagged, the impeded time is calculated to the resolution date.
- If a ticket is still flagged at the time the chart is generated, the impeded day count will run to today's date.
- Blocking time is always rounded up to the nearest whole day.
Defect density
Three charts for analysing the amount of defects that have been open historically, grouped in various ways into stacked bar graphs.
These charts all rely on a separate JIRA query:
Defects query: issueType = Bug
Again, you can use the filter=123
JQL syntax to delegate the query specifics
to a named filtered.
The three available groupings are:
- Show how many defects remained open each month, grouped by priority.
- Show how many defects remained open each month, grouped by type.
- Show how many defects remained open each month, grouped by environment.
They each require you to specify the name of the relevant field, and a chart output. You can also optionally specify a list of allowed values for each field, which lets you control the order. Finally, you can specify a "window" of how many of the most recent months to show (the default is to show all months for which there is data). Here is an example that enables all charts, and limits to showing the six most recent months in each:
Defects query: issueType = Bug
Defects window: 6
Defects priority field: Priority
Defects priority values:
- Low
- Medium
- High
Defects type field: Root cause
Defects type values:
- Config
- Data
- Code
Defects environment field: Environment
Defects environment values:
- SIT
- UAT
- PROD
Defects by priority chart: defects-by-priority.png
Defects by priority chart title: Defects by priority
Defects by type chart: defects-by-type.png
Defects by type chart title: Defects by type
Defects by environment chart: defects-by-environment.png
Defects by environment chart title: Defects by environment
If you omit any of the chart names, the relevant chart will not be produced. If you omit any of the field names, the relevant chart will not be stacked. If you omit the values list, all unique values will be shown.
Technical debt
Two charts that show the nature and age of recorded (unresolved) technical debt.
These require a separate JIRA query. You should also identify the field indicating priority:
Debt query: issueType = "Tech debt"
Debt priority field: Priority
Debt priority values:
- Low
- Medium
- High
As ever, use filter=123
to use a named filter instead. If you omit the
Debt priority values
option, all unique priority values will be used, in
alphabetical order.
The first chart shows the open technical debt items each month as a stacked bar chart grouped by priority. You can optionally specify a "window" to show only a limited number of the most recent months:
Debt window: 3
Debt chart: tech-debt.png
Debt chart title: Technical debt
The second chart shows the number of open technical debt items by their current age in days, broken down by priority, and stacked into "bins":
Debt age chart: tech-debt-age.png
Debt age chart title: Technical debt age
Debt age chart bins:
- 30
- 60
- 90
This will use the age brackets 0-30 days, 31-60 days, 61-90 days, and over 90 days (which also happens to be the default).
Waste (withdrawn items)
This chart shows how many work items are withdrawn or cancelled after work
has started. It relies on a separate JIRA query, and assumes that withdrawn
work items are all "resolved" in JIRA. Moreover, it assumes that these work
items follow the same workflow as that used for the other charts and files,
i.e. as mapped in the Workflow
section of the configuration file.
Here is an example:
Waste query: issueType = Story AND resolution IN (Withdrawn, Invalid)
Waste window: 10
Waste frequency: 2W-WED
Waste chart: waste.png
Waste chart title: Waste
This will show withdrawn items broken down by the period in which they were
withdrawn for the the 10 most recent periods. The default period length is
monthly, but here we have set it to 2W-WED
, which means a two-week period
starting on a Wednesday. Waste window
and Waste frequency
are both
optional.
More details about the configuration file format
The configuration file is written in YAML format. If you are unfamiliar with YAML, know that:
- Comments start with
#
- Sections are defined with a name followed by a colon, and then an indented
block underneath.
Connection
,Output
,Workflow
andAttributes
area all sections in the example above. - Indentation has to use spaces, not tabs!
- Single values can be set using
Key: value
pairs. For example,Burnup chart: burnup.png
above sets the keyBurnup chart
to the valueburnup.png
. - Lists of values can be set by indenting a new block and placing a
-
in front of each list value. In the example above, theQA
list contains the valuesCode review
andTest
.
The sections for Workflow
is required. Additionally, you must either specfiy a
single Query
, or a block of Queries
(see below). Connection details must
be set either in the Connection
file or as command line arguments.
Under Workflow
, at least two steps are required. Specify the steps in order.
You may either specify a single workflow value or a list (as shown for QA
above), in which case multiple JIRA statuses will be collapsed into a single
state for analytics purposes.
The file, and values for things like workflow statuses and attributes, are case insensitive.
Extracting additional attributes
You may want to add additional fields to the cycle time output data. Use an
Attributes
block to do this:
Attributes:
Priority: Priority
Release: Fix version/s
Team: Team name
Here, three additional columns will be added: Priority
, Release
and Team
,
corresponding to the JIRA fields Priority
, Fix version/s
and Team name
,
respectively.
When specifying attributes, use the name of the field (as rendered on screen
in JIRA), not its id (as you might do in JQL), so e.g. use Component/s
not
components
.
The attributes Type
(issue type), Status
and Resolution
are always
included.
Multi-valued fields
Some fields in JIRA can contain multiple values, e.g. fixVersion
. By default,
the extractor will use the first value in such a field if one is specified in
the Attributes
block. However, you may want to extract only specific values.
To do so, add a block like the following::
Attributes:
Release: Fix version/s
Known values:
Release:
- "R01"
- "R02"
- "R03"
The extractor will pick the first "known value" found for the field. If none of the known values match, the cell will be empty.
Combining multiple queries
If it is difficult to construct a single set of criteria that returns all
required issues, multiple queries can be added into a Queries
block, like so:
Queries:
Attribute: Team
Criteria:
- Value: Team 1
JQL: (filter=123)
- Value: Team 2
JQL: (filter=124)
In this example, two queries will be run, based on the two filters 123
and
124
(you can use any valid JQL).
In the cycle time output, a new column called Team
will be added, as specified
by the Attribute
field under Queries
. For all items returned by
the first query, the value will be Team 1
as per the Value
field, and for
all items returned by the second query, it will be Team 2
.
Troubleshooting
-
If Excel complains about a
SYLK
format error, ignore it. Click OK. See https://support.microsoft.com/en-us/kb/215591. -
JIRA error messages may be printed out as HTML in the console. The error is in there somewhere, but may be difficult to see. Most likely, this is either an authentication failure (incorrect username/password or blocked account), or an error in the
Query
option resulting in invalid JQL. -
If you aren't getting the issues you expected to see, use the
-v
option to see the JQL being sent to JIRA. Paste this into the JIRA issue filter search box ("Advanced mode") to see how JIRA evaluates it. -
Old workflow states can still be part of an issue's history after a workflow has been modified. Use the
-v
option to find out about workflow states that haven't been mapped. -
Excel sometimes picks funny formats for data in CSV files. Just set them to whatever makes sense.
-
If you are on a Mac and you get an error about Python not being installed as a framework, try to create a file
~/.matplotlib/matplotlibrc
with the following contents:backend : Agg
-
To install the charting dependencies on a Mac, you might need to install a
gfortran
compiler forscipy
. Use Homebrew and install thegcc
brew.
Output settings reference
The following options can be set in the Output:
section of the configuration
file.
General options
These options affect multiple charts and files.
Quantiles: <list>
– Quantiles to use when calculating percentiles.Backlog column: <name>
--Name of the backlog column. Defaults to the first column.Committed column: <name>
– Name of the column from which work is considered committed. Defaults to the second column.Final column: <name>
– Name of the final 'work' column. Defaults to the penultimate column.Done column: <name>
– Name of the 'done' column. Defaults to the last column.
Data files
These options name data files to write. Use an extension of .csv
, .xlsx
, or
.json
according to the required file format.
Cycle time data: <filename>.[csv,xlsx,json]
– Output file suitable for processing Actionable Agile. Contains all issues described by the configuration file, metadata, and dates of entry to each state in the cycle.CFD data: <filename>.[csv,xlsx,json]
– Calculate data to draw a Cumulative Flow Diagram and write to file. Hint: Plot as a (non-stacked) area chart.Scatterplot data: <filename>.[csv,xlsx,json]
– Calculate data to draw a cycle time scatter plot and write to file. Hint: Plot as a scatter chart.Histogram data: <filename>.[csv,xlsx,json]
– Calculate data to draw a cycle time histogram and write to file. Hint: Plot as a column chart.Throughput data: <filename>.[csv,xlsx,json]
– Calculate daily throughput data and write to file. Hint: Plot as a column chart. Respects theThroughput frequency
setting (see below).Percentiles data: <filename>.[csv,xlsx,json]
– Calculate cycle time percentiles and write to file.Impediments data: <filename>.[csv,xlsx,json]
– Output impediment start and end dates against tickets.
Scatterplot chart
Scatterplot window: <number>
– Number of recent days to show in scatterplot. Defaults to showing all data.Scatterplot chart: <filename>.png
– Draw cycle time scatter plot.Scatterplot chart title: <title>
– Title for cycle time scatter plot.
Histogram chart
Histogram window: <number>
– Number of recent days to show in histogram. Defaults to showing all data.Histogram chart: <filename>.png
– Draw cycle time histogram.Histogram chart title: <title>
– Title for cycle time histogram.
Cumulative Flow Diagram
CFD window: <number>
– Number of recent periods to show in the CFD. Defaults to showing all periods.CFD chart: <filename>.png
– Draw Cumulative Flow Diagram.CFD chart title: <title>
– Title for the CFD.
Throughput chart
Throughput frequency: <freq>
– Interval to use for calculating frequency, e.g. 1D for daily or 1W for weekly.Throughput window: <number>
– Number of recent periods to show in throughput chart. Defaults to showing all periods.Throughput chart: <filename>.png
– Draw weekly throughput chart with trend line.Throughput chart title: <title>
– Title for throughput chart.
Burnup chart
Burnup window: <number>
– Number of recent periods to show in burnup. Defaults to showing all periods.Burnup chart: <filename>.png
– Draw simple burn-up chart.Burnup-chart-title <title>
– Title for burn-up charts_scatterplot.
Burnup forecast chart
Burnup forecast window: <number>
– Number of recent periods to show in the burnup forecast chart. Defaults to showing all periods.Burnup forecast chart: <filename>.png
– Draw burn-up chart with Monte Carlo simulation forecast to completion.Burnup forecast chart title: <title>
– Title for burn-up forecast chart.Burnup forecast chart target: <number>
– Target completion scope for forecast. Defaults to current size of backlog.Burnup forecast chart deadline: <date>
– Deadline date for completion of backlog. If set, it will be shown on the chart, and the forecast delta will also be shown. Use ISO date format, e.g.2018-01-02
for January 2nd 2018.Burnup forecast chart deadline confidence: <number>
– Quantile to use when comparing deadline to forecast. Use a fraction, e.g.0.85
.Burnup forecast chart trials: <number>
– Number of iterations in Monte Carlo simulation.Burnup forecast chart throughput window: <number>
– How many days in the past to use for calculating throughput.Burnup forecast chart throughput window end: <date>
– By default, the throughput window runs to today's date. Use this option to set an alternative end date for the window. Use ISO date format, e.g.2018-01-02
for January 2nd 2018.
WIP chart
WIP frequency: <freq>
– Frequency interval for WIP chart.1W-Mon
means 1 week, starting Mondays.WIP window: <number>
– Number of recent periods to show in WIP chart. Defaults to showing all periods.WIP chart: <filename>.png
– Draw weekly WIP box plot.WIP chart title: <title>
– Title for WIP chart
Ageing WIP chart
Ageing WIP chart: <filename>.png
– Draw current ageing WIP chart.Ageing WIP chart title: <title>
– Title for ageing WIP chart.
Net flow chart
Net flow frequency: <freq>
– Frequency interval for net flow chart.1W-Mon
means 1 week, starting Mondays.Net flow window: <number>
– Number of recent periods to show in net flow chart. Defaults to showing all periods.Net flow chart: <filename>.png
– Draw weekly net flow bar chart.Net flow chart title: <title>
– Title for net flow bar chart.
Impediments chart
Impediments window: <number>
– How many months to show.Impediments chart: <filename>.png
– Draw a bar chart of the number of active impediments during each month, stacked by the ticket status at the time the impediment was raised.Impediments chart title: <title>
– Title for the impediments chart.Impediments days chart: <filename>.png
– Draw a bar chart of the total number of days of all the impediments active during each month, stacked by the ticket status at the time each impediment was raised.Impediments days chart title: <title>
– Title for the impediments days chart.
Defect density charts
-
Defects query: <query>
– JQL query used to identify defects. -
Defects window: <number>
– How many months to show. -
Defects priority field: <fieldname>
– Name of field identifying defect priority. -
Defects priority values: <list>
– List of valid values, in order, for defect priorities. -
Defects type field: <fieldname>
– Name of field identifying defect type. -
Defects type values: <list>
– List of valid values, in order, for defect values. -
Defects environment field: <fieldname>
– Name of field identifying the environment in which a defect was discovered. -
Defects environment values: <list>
– List of valid values, in order, for defect environments. -
Defects by priority chart: <filename>.png
– Draw stacked bar chart of defects grouped by priority over time. -
defects-by priority chart title: <title>
– Title for defects-by-priority chart. -
Defects by type chart: <filename>.png
– Draw stacked bar chart of defects grouped by type over time. -
Defects by type chart title: <title>
– Title for defects-by-type chart. -
Defects by environment chart: <filename>.png
– Draw stacked bar chart of defects grouped by environment over time. -
Defects by environment chart title: <title>
– Title for defects-by- environment chart.
Debt density chart
-
Debt query: <query>
– JQL query used to identify technical debt items. -
Debt window: <number>
– How many months to show in the debt chart. Defaults to showing all months for which there is data. -
Debt priority field: <fieldname>
– Name of field identifying technical debt item priority. -
Debt priority values: <list>
– List of valid values, in order, for technical debt item priorities. -
Debt chart: <filename>.png
– Draw a stacked bar chart of technical debt grouped by priority over time. -
Debt chart title: <title>
– Title for the technical debt chart. -
Debt age chart: <filename>.png
– Draw a stacked bar chart of technical debt grouped by priority by age. -
Debt age chart title: <title>
– Title for the technical debt age chart. -
Debt age chart bins: <list>
– List of bins for bracketing the ages shown. Defaults to30
,60
, and90
, which will group ages into0-30 days
,31-60 days
,61-90 days
and91 days or more
.
Waste chart
Waste query: <query>
– JQL query used to identify waste items, e.g. those withdrawn after work has begun.Waste frequency: <freq>
– Frequency to group waste chart by. Defaults to month start (MS
). Use e.g.2W-WED
to group by fortnight starting Wednesday.Waste window: <number>
– How many months to show.Waste chart: <filename>.png
– Draw a stacked bar chart of wasted items, grouped by last non-resolved status.Waste chart title: <title>
– Title for the waste chart.
Changelog
0.6
- Don't log every list value resolution at debug
0.5
- Added batch mode docker image
0.4
- Added impediments charts
0.3
- Added debt, defects, and waste charts.
- Added
window
options to most charts.
0.2
- Added
--output-directory
option.
0.1
- Forked from
jira-agile-metrics
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