pskink's suggestion is right. You can use an `ArgbEvaluator`

to achieve this goal.

Let's assume this is your `SeekBar`

:

```
C1 C2 C3
+-------|-------|-------|-------|---+---|-------|-------|-------|-------+
1 2 3 4 5 6 7 8 9 10
```

You've got 10 `Thumb`

positions (numbers from `1`

- `10`

), 3 colors (`+`

sign indicates the position of the color, and `C1`

, `C2`

and `C3`

represent the name of the color).

The distance between `C1`

and `C2`

(as well as between `C2`

and `C3`

) can be devided into 9 pieces. Those 9 pieces can represent your `Thumb`

positions:

```
C1 C2 C3
+-------|-------|-------|-------|---+---|-------|-------|-------|-------+
| | | | | | | | | | |
0/9 2/9 4/9 6/9 8/9 9/9 | | | | |
| | | | | |
0/9 1/9 3/9 5/9 7/9 9/9
```

Therefore the values of your `SeekBar`

can be calculated this way:

```
int c1 = 0xFFFF0000; // ARGB representation of RED
int c2 = 0xFFFFFF00; // ARGB representation of YELLOW
int c3 = 0xFF00FF00; // ARGB representation of GREEN
ArgbEvaluator evaluator = new ArgbEvaluator();
int thumb1 = (int) evaluator.evaluate(0f, c1, c2); // 0f/9f = 0f
int thumb2 = (int) evaluator.evaluate(2f / 9f, c1, c2);
int thumb3 = (int) evaluator.evaluate(4f / 9f, c1, c2);
int thumb4 = (int) evaluator.evaluate(6f / 9f, c1, c2);
int thumb5 = (int) evaluator.evaluate(8f / 9f, c1, c2);
int thumb6 = (int) evaluator.evaluate(1f / 9f, c2, c3);
int thumb7 = (int) evaluator.evaluate(3f / 9f, c2, c3);
int thumb8 = (int) evaluator.evaluate(5f / 9f, c2, c3);
int thumb9 = (int) evaluator.evaluate(7f / 9f, c2, c3);
int thumb10 = (int) evaluator.evaluate(1f, c2, c3); // 9f/9f = 1f
```

`ArgbEvaluator`

is the only one that i can think of, but i'm not 100% if you get the exact same color – pskink Nov 1 '15 at 7:56