In the OpenCV implementation of SIFT, keypoints has (angles) in degrees (ranging from 180 to -180), which represents the calculated orientations for these keypoints. Since SIFT assign the dominant orientation of a keypoint using 10 degrees bins in a histogram, how we can get this range of angles? shouldn't the values be in 10 degrees steps?

Is that so because of the histogram smoothing?

This is the code where the keypoint.angle is assigned a value, can you help me understanding how we got this value?

```
float omax = calcOrientationHist(gauss_pyr[o*(nOctaveLayers+3) + layer],
Point(c1, r1),
cvRound(SIFT_ORI_RADIUS * scl_octv),
SIFT_ORI_SIG_FCTR * scl_octv,
hist, n);
float mag_thr = (float)(omax * SIFT_ORI_PEAK_RATIO);
for( int j = 0; j < n; j++ )
{
int l = j > 0 ? j - 1 : n - 1;
int r2 = j < n-1 ? j + 1 : 0;
if( hist[j] > hist[l] && hist[j] > hist[r2] && hist[j] >= mag_thr )
{
float bin = j + 0.5f * (hist[l]-hist[r2]) / (hist[l] - 2*hist[j] + hist[r2]);
bin = bin < 0 ? n + bin : bin >= n ? bin - n : bin;
kpt.angle = 360.f - (float)((360.f/n) * bin);
if(std::abs(kpt.angle - 360.f) < FLT_EPSILON)
kpt.angle = 0.f;
keypoints.push_back(kpt);
}
}
```