# 2D perlin noise in C

I followed this tutorial.

When I implement it in my code (Raytracing), and apply it on a sphere, I get a uni-color sphere, with one stripe of darker pixel on it. When I change the random float generator, I got the basic linear noise, which isn't my goal. Can you explain what I missed?

Here is my code:

``````#include    <stdlib.h>
#include    <math.h>

float       noise(int x, int y)
{
int       n;

n = x + y * 57;
n = pow((n << 13), n);
return (1.0 - ( (n * (n * n * 15731 + 789221) + 1376312589) & 0x7fffffff) / 1073741824.0);
}

float       interpolate(float a, float b, float x)
{
float     pi_mod;
float     f_unk;

pi_mod = x * 3.1415927;
f_unk = (1 - cos(pi_mod)) * 0.5;
return (a * (1 - f_unk) + b * x);
}

float       smooth_noise(int x, int y)
{
float     corners;
float     center;
float     sides;

corners = (noise(x - 1, y - 1) + noise(x + 1, y - 1) +
noise(x - 1, x + 1) + noise(x + 1, y + 1)) / 16;
sides = (noise(x - 1, y) + noise(x + 1, y) + noise(x, y - 1) +
noise(x, y + 1)) / 8;
center = noise(x, y) / 4;
return (corners + sides + center);
}

float       noise_handler(float x, float y)
{
int       int_val[2];
float     frac_val[2];
float     value[4];
float     res[2];

int_val[0] = (int)x;
int_val[1] = (int)y;
frac_val[0] = x - int_val[0];
frac_val[1] = y - int_val[1];
value[0] = smooth_noise(int_val[0], int_val[1]);
value[1] = smooth_noise(int_val[0] + 1, int_val[1]);
value[2] = smooth_noise(int_val[0], int_val[1] + 1);
value[3] = smooth_noise(int_val[0] + 1, int_val[1] + 1);
res[0] = interpolate(value[0], value[1], frac_val[0]);
res[1] = interpolate(value[2], value[3], frac_val[0]);
return (interpolate(res[0], res[1], frac_val[1]));
}

float       perlin_two(float x, float y)
{
float     total;
float     per;
float     amp;
int       hz;
int       i;
int       octave;

total = 0.0;
per = 0.5;
octave = 10;
i = 0;
while (i < octave)
{
hz = pow(2, i);
amp = pow(per, (float)i);
total += noise_handler(x * (float)hz, y * (float)hz) * amp;
i += 1;
}
return (total);
}
``````

EDIT: I spot an error in the Noise function (I consider the XOR operand like a power function ... Now I get a barcode, as if the y parameter was ignored in the operations ...

Had to implement this in C recently and this post helped get me started. One fix for the noise function as previously stated.

``````float noise(int x, int y) {
int n;

n = x + y * 57;
n = (n << 13) ^ n;
return (1.0 - ( (n * ((n * n * 15731) + 789221) +  1376312589) & 0x7fffffff) / 1073741824.0);
}
``````

Most importantly, is that Fractal Brownian Motion is really important when implementing Perlin Noise for use in a height map. Instead of following the pseudo code by Hugo Elias, I used this Google Code Snippet.

``````float perlin_two(float x, float y, float gain, int octaves, int hgrid) {
int i;
float total = 0.0f;
float frequency = 1.0f/(float)hgrid;
float amplitude = gain;
float lacunarity = 2.0;

for (i = 0; i < octaves; ++i)
{
total += noise_handler((float)x * frequency, (float)y * frequency) * amplitude;
frequency *= lacunarity;
amplitude *= gain;
}

return (total);
}
``````

Before I did this, I'd had the same issue with uniform 'stripping' or just complete random looking height maps.

• What's `noise_hander`? Is it just any function which can give you noise? (In which case, what's a `hander`? Why not just call it `noise_generator`?) – Fund Monica's Lawsuit Jul 20 '18 at 4:13

You got to debug & rework probably all your variable types; do the math in pen & paper or in a debugger and check the range of the values. e.g. here

``````noise(int x, int y) {
int n = x + y * 57;
n = pow((n << 13), n);  ...
}
``````

`n` will either underflow or overflow for almost all non-zero values. Good random values can't be produced with any random method, which is what these formulas look like.

Check also this topic for some reference code.

• I change the line : "n = pow((n << 13), n);" to "n = (n << 13) ^ n" which was a first error. Now I get bar code. How should I adapt the pseudo code of this function, written on the tutorial, to C language, if it under or overflow ? – tankyx May 15 '13 at 16:57
• The bar code is an indication of the selection of the formula `n=x+y*57`; where when you use (x+1) vs (y+1) one of those changes doesn't change the output much (or at all). (x+1) vs. (y+1)*57 ? – Aki Suihkonen May 15 '13 at 18:15
• If I change for n = (x*57) + (y * 57), i get some other colors but always bar code, as if I try n = (x + y) * 57. Perlin values are modified, but still draws a cycle ... – tankyx May 15 '13 at 18:31