Creating a custom tool

(Note: this was originally posted in november 2012, I’m reposting it here to give it more visibility and to revive the blog).

This tutorial describes the process of designing and creating a custom tool for Kinovea (version 0.8.18 or later needed). It follows the actual creation of the “angle-to-vertical” tool shipped in 0.8.19. The process is currently manual and involves editing XML files.

Draw it on paper first

The first thing to do is to draw a draft of the tool on a piece of paper. Take notes of what type of interactions you want, angles to display, etc. Associate numbers to every point (movable by the user or not), starting from 0.

Here is my draft:

This tool is to check the angle of a segment relatively to the vertical axis.

Point 1 is the driving point and I want to measure the angle of segment [1,3] relatively to the vertical axis represented by [0,2].
Here is the final tool in a bike fit setup:

(Image courtesy of

The spec of the tool is that when the knee point is moved, it drags the vertical line with it. This way the angle is always measured relatively to the vertical axis. (The numbers are for illustration, they are not part of the final tool).

Start with an existing file

Chances are that an existing tool resembles what you want to do, or has the right number of points. It’s always easier to start with an existing shell and fill in the blanks. The existing tools are found in the program directory, for example:
“C:\Program Files\Kinovea\DrawingTools”

Copy one of the existing XML file to a more convenient place and rename it. The name of the file is only relevant to the order of appearance in the menu, but it’s good practice to give it the same name as the tool name. To test the tool, save it back in Program files (you’ll be asked for admin rights for the copy) and restart Kinovea.

Open the file in Notepad or your favorite text editor.

1. Change the name. This is what will be displayed in the menu.
2. Create a unique GUID for the tool. Go to or and copy the result in the ID attribute.
3. Fill in the total number of points.

<Name>Angle to vertical</Name>


Segments connects points together. When referencing points, use the numbers on your draft. Remember that the first point is “0″ not “1″.

Here we only have 2 segments, one going from “0″ to “2″, and one going from “1″ to “3″. (we will describe the relation between point “1″ and the [0,2] segment later).

The line style can be dashed or solid. By convention virtual segments like verticals, symmetry lines, etc. are dashed, and real segments are solid.

<Segment point1="0" point2="2" style="Dash" width="2"/>
<Segment point1="1" point2="3" style="Solid" width="2"/>


The Angles section defines between which segments we want to display angles.
origin, leg1 and leg2 attributes refers to Point indices (starting at 0 as always).

Angles with the relative attribute are always less than 180° and switch sides when crossing the reference leg (segment from origin to leg1).

For non relative angles, the order of the “legs” are important since they indicate the angle orientation. An angle is defined as the angle going from leg1 to leg2 clockwise. If you have a 90° angle and you mess up the orientation, it will show as 270°. Just invert the legs in the XML.

Angles with the tenth attribute to true will display tenth of degrees instead of integer values.

<Angle origin="1" leg1="2" leg2="3" relative="true" tenth="true"/>


At the simplest, a handle just references a point that the user can move around.
(There are also segment handles and ellispes handle, not discussed here).

Handles can be extended with constraints and impacts. “Constraints” express in which ways the point itself can be moved around. “Impacts” define what happen to other points when we move this handle.

Here, we want the handle “0″ and “2″ to be constrained on the vertical axis, this is done with VerticalSlide.

<Handle type="Point" reference="0">
<Constraint type="VerticalSlide"/>

<Handle type="Point" reference="2">
<Constraint type="VerticalSlide"/>

Point “1″ can go anywhere, but when it moves, the vertical segment [0,2] must moves with it, and stay vertical. Basically, we want point “0″ and point “2″ to always have the same “x” coordinate than point “1″. This is done with the HorizontalAlign impact.

<Handle type="Point" reference="1" trackable="true">
<Impact type="HorizontalAlign">
<HorizontalAlign point="0"/>
<Impact type="HorizontalAlign">
<HorizontalAlign point="2"/>

This is equivalent of saying: “Each time point 1 moves, align point 0 and point 2 with it, on the horizontal coordinate”.

The handle on Point “3″ is completely free from any constraint and has no impact on other points.

<Handle type="Point" reference="3" trackable="true"/>

That’s almost it. The impact and constraint engine is the most advanced part but after you’ve done a few tools you will see the patterns.


The Icon section can be omitted, it will use the default icon:
To have a custom icon you must use a 16×16 image and convert it to Base64 encoding.

Go to this Base64 online encoder, input your 16×16 icon from your hard drive, click Encode, and paste the output to the XML file as is.

Initial configuration

The initial configuration is the shape of the drawing when first added to the video.
The numbers are coordinates in pixels on a virtual plane of 800×600. They will be adapted to the size of the video.



You may have noticed that I added the attribute trackable=”true” to the handle for point “1″ and point “3″ :)

Trackability is new in version 0.8.19. The goal is that everything becomes trackable, including the angle tool, line tool, magnifier, custom tools, ect. I hope the combined power of custom tools and trackability will enable great things.

Be careful with which points you allow tracking on though. Generally a point with a constraint probably shouldn’t be trackable. It’s the tracking of other points that will move it, respecting the constraint along the way. A trackable but constrained point could cause problems when the tracking go outside the constraint. Experiment!

A copy of the final file is also online here.


As a custom tool designer, be sure to report your experiments and special needs! The custom tool framework is still new and will be further enriched as special needs arise. Length display, arrows, rectangles, new constraints or impacts, each time something is added to support a particular tool, the toolbox gets richer and opens even more possibilities for all future tools to come.