# How to create a slider with a non-linear scale?

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.

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see Sam Hocevar's answer for the correct way to do this. The accepted answer is definitively the wrong way to go –  Benlitz Jun 14 '13 at 6:56

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 `Value` of a `Slider` from Linear to a Quadratic Function by specifying the Y value of the function when the Thumb is in the middle.

A Quadratic Function is written on the form

Since we have 3 points, we have 3 sets of values for X and Y.

``````(X1, Y1) = 0, 0
(X3, Y3) = Maximum, Maximum (in your case 500)
``````

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, `QuadraticSlider`, which derives from `Slider` and adds two Dependency Properties: `QuadraticValue` and `CenterQuadraticValue`. It calculates `QuadraticValue` using the formula above based on `Value`, `Maximum`, `Minimum` and `CenterQuadraticValue`. It also does the reverse: setting `QuadraticValue` updates `Value`. So instead of Binding to `Value`, bind to `QuadraticValue`.

Edit: The last version was a little buggy. Fixed a couple of things

• Calculating `Value` from `QuadraticValue` no longer breaks when "a" is 0
• Used wrong root from the second degree solution when the derivate was negative

I uploaded a sample application where `QuadraticSlider` is used to zoom a picture. All parameteres can be specified and the first picture uses `Value` and the other `QuadraticValue`.

It looks like this

And this is what the graph looks like, notice the values below 0

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Good job Meleak! It has some bugs, so I had to edit a few your code to work. For example: In your example, try to change the minimum to 25. Thank you. –  Seva Sep 1 '11 at 14:40
@Seva: I'm unable to find that bug. If you set `Maximum` to 25, you have to set `CenterQuadraticValue` to something below 25, like 10. Otherwise you'll get a pretty buggy behavior but that's because you specified bad parameters :) Also, you'll have to compensate on the `ScaleTransform` on the Images since they start of with a value of 0.002 which I just hardcoded :) (Or did you find something that I overlooked?) –  Fredrik Hedblad Sep 1 '11 at 14:50
@Seva: Aha, setting Minimum to 25 does indeed not work as expected. Missread your comment. I'll look into it –  Fredrik Hedblad Sep 1 '11 at 14:52
NO, NO, NO AND NO! Downvoting this to infinity! That's probably the worst possible way to do it! You must use a strictly monotonous function. –  Sam Hocevar Jun 14 '13 at 5:54
@SamHocevar: +1 for an, by the looks of it, much better answer. -1 for screaming and uncalled for attitude –  Fredrik Hedblad Jun 15 '13 at 13:29

A good formula for the displayed value is a monotonous function such as a power curve, in the following form:

``````DisplayValue = A + B * Math.Exp(C * SliderValue);
``````

The internal slider value (from 0 to 1 for instance) is obtained by inverting the formula:

``````SliderValue = Math.Log((DisplayValue - A) / B) / C;
``````

Now how to obtain A, B and C? By using the three constraints you gave:

``````f(0.0) = 0
f(0.5) = 100
f(1.0) = 500
``````

Three equations, three unknowns, this is solved using basic maths:

``````A + B = 0
A + B exp(C * 0.5) = 100
A + B exp(C) = 500

B (exp(C * 0.5) - 1) = 100
B (exp(C) - 1) = 500

exp(C) - 5 exp(C * 0.5) + 4 = 0  // this is a quadratic equation

exp(C * 0.5) = 4

C = log(16)
B = 100/3
A = -100/3
``````

Yielding the following code:

``````double B = 100.0 / 3;
double C = Math.Log(16.0);
DisplayValue = B * (Math.Exp(C * SliderValue) - 1.0);
``````

You can see that the display value is at 100 when the internal value is in the middle:

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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.

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I don't think it works. Dosnt valueConverter only format the string of the text? –  Seva Sep 1 '11 at 14:39
no you can create small little pieces of code called ValueConverters - see here: msdn.microsoft.com/en-us/library/…;, that will convert one value to another during binding .. but nice to give someone a downvote based on his own ignorance - thanks a lot ... pleasure to help you :/ –  Carsten König Sep 1 '11 at 16:08
The other example is a lot of work, but this one is the more correct way to do it. –  mydogisbox Sep 1 '11 at 18:04
dude, how can you change the thumb position inside slider based only in valueconverter? –  Seva Sep 6 '11 at 16:47
you binnd the value to some other value and use a ValueConverter in there so if your internal value is 10 you can have the Converter return 1, 100->2, or whatever. The slider only sees the values after the converter so you can just map linear-scale to log-scale or whatever you want –  Carsten König Sep 6 '11 at 16:54

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.

``````public class LogScaleConverter : IValueConverter
{
public object Convert(object value, Type targetType, object parameter, CultureInfo culture)
{
double x = (int)value;
return Math.Log(x);
}

public object ConvertBack(object value, Type targetType, object parameter, CultureInfo culture)
{
double x = (double)value;
return (int)Math.Exp(x);
}
}
``````
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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).

``````protected override void OnValueChanged(double oldValue, double newValue)
{
QuadraticValue = a * Math.Pow(Value, 2) + b * Value + c;
base.OnValueChanged(oldValue, newValue);
}

{
get {
if (double.IsNaN(qv))
qv = 0;
qv = Math.Max(qv, base.Minimum);
qv = Math.Min(qv, base.Maximum);
return qv;
}
set
{
}
}
``````
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To generalise on Sam Hocevar's excellent answer:

Let the intended Maximum value be M.
Let the value at the slider midpoint be m.
(obviously, 0 < m < M), then

``````    A = - M*m^2 / (M^2 - 2*m*M)
B = M*m^2 / (M^2 - 2*m*M)
C = Ln((M - m)^2 / m^2) // <- logarithm to the base of e, I always think of 'Log' as base 10
``````

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.
Choosing m close to 0 or close to M makes for fine control over the very low or the very high values.

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.

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