I have a slider with a minimum value of 0 and maximum of 500.
I want to when the slider goes to 100, the thumb be in the middle of the slider.
I know it seems wierd, but some programs do it with zoom slider, and I believe it's better.
This was such an interesting question that I couldn't leave it alone, and hopefully I got what you're asking right :)
You want to change the
A Quadratic Function is written on the form
Since we have 3 points, we have 3 sets of values for X and Y.
From here, we can create a Quadratic Equation (see this link for example) which comes out to
Unfortunately, some values in this graph ends up below 0 so they will have to be coerced to 0 (I included a graph in the bottom of the answer).
I created a control,
Edit: The last version was a little buggy. Fixed a couple of things
I uploaded a sample application where
Download it here if you want to try it out.
It looks like this
And this is what the graph looks like, notice the values below 0
A good formula for the displayed value is a monotonous function such as a power curve, in the following form:
The internal slider value (from 0 to 1 for instance) is obtained by inverting the formula:
Now how to obtain A, B and C? By using the three constraints you gave:
Three equations, three unknowns, this is solved using basic maths:
Yielding the following code:
You can see that the display value is at 100 when the internal value is in the middle:
let the slider as it is and use a ValueConverter for your bindings. In the ValueConverter use the non-linear scaling to scale the value as you wish.
Just as a further reference; if you are not interested on exact positions for your slider to correspond to specific values in your scale but still want a behavior where the slider is more sensitive to values on the beginning of the scale than on the end, then perhaps using a simple log scale may suffice.
Some addition to Meleak's post. I've slightly corrected QuadraticSlider. There was issue with event handlers (event on QuadraticValueChanged with yet prevoius value; event during initialization with out of range [min, max] value).
To generalise on Sam Hocevar's excellent answer:
Let the intended Maximum value be M.
One must take care to treat the case 2*m=M seperately, because that leads to a division by 0. But in that case, you'd have the slider behave in a linear fashion anyway.
Chosing m from between M/2 and M makes for a logarithmic curve: The effective slider values rise fast at first, then slowly later on. This basically reverses the effect and gives the user finer control of the higher values.
As mentioned, an m close to M/2 makes the slider basically linear.
I suppose one could use this in combination with a second slider that sets m to a value between 0 and M to change the ... errr ... sensitive zone of the real slider.