# How does linear interpolation work in classic Perlin noise?

Yesterday I ported the classic Perlin noise (src: http://mrl.nyu.edu/~perlin/doc/oscar.html#noise) to JavaScript. Strangely the generated noise looks a lot different from what I've expected. The classic Perlin noise uses linear interpolation/lerp, but the noise is smooth instead of edged. It looks more like cosine interpolation. It seems Perlin uses the lerp function in a different way.

Here is the original code ported to JavaScript (with canvas picture): http://jsfiddle.net/fDTbv/

This is the interesting part:

t = vec[0] + N;
bx0 = Math.floor(t) & BM;
bx1 = (bx0+1) & BM;
rx0 = t - Math.floor(t);
rx1 = rx0 - 1.;

sx = s_curve(rx0);

u = rx0 * g1[ p[ bx0 ] ];
v = rx1 * g1[ p[ bx1 ] ];

return lerp(sx, u, v);

u and v always change. Why? Shouldn't be u and v represent the point before and the point after sx and therefor don't change?

I changed the code to "what I expected" how it would look: http://jsfiddle.net/8Xv8G/

And the interesting part:

bx0 = Math.floor(x) & BM;
bx1 = (bx0+1) & BM;

u = g1[ p[ bx0 ] ];
v = g1[ p[ bx1 ] ];

return lerp(x - Math.floor(x), u, v);

My question: Why does Perlin use the lerp function so differently?

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I dont understand your problem. You have 2 JS scripts, one works, why not use that one. – Ash Burlaczenko May 10 '12 at 7:10
Perlin noise is supposed to be continuous and have a consistent feature scale. More "jagged" noise is created by adding extra iterations of higher frequency noise. – Alnitak May 10 '12 at 7:23
It's more an understanding problem instead of a programming problem. The code works fine, but I don't understand why Perlin uses something like linear interpolation if the generated noise clearly doesn't look linear interpolated. Isn't that unnecessary? – Pipo May 10 '12 at 7:35