It is calculated that way.
Look at the first two lines:
int k = floorf(x_out[j]);
a = x_out[j] - floorf(x_out[j]);
The first line defines x0
using the floor function. This is because the article assumes a lattice spacing of one for the sample points, as per the line:
the samples are obtained on the 0,1,...,M lattice
Now we could rewrite the second line for clarity as:
a = x_out[j] - k;
The second line is therefore x-x0
.
Now, let us examine the equation:
result[j].y = a*data[k+1].y + (-data[k].y*a + data[k].y);
Rewriting this in terms of y
, x
, and x0
gives:
y = (x-x0)*data[k+1].y + (-data[k].y*(x-x0) + data[k].y);
Let's rename data[k+1].y
as y1
and data[k].y
as y0:
y = (x-x0)*y1 + (-y0*(x-x0) + y0);
Let's rearrange this by pulling out x-x0
:
y = (x-x0)*(y1-y0) + y0;
And rearrange again:
y = y0 + (y1-y0)*(x-x0);
Again, the lattice spacing is important:
the samples are obtained on the 0,1,...,M lattice
Thus, x1-x0
is always 1. If we put it back in, we get
y = y0 + (y1-y0)*(x-x0)/(x1-x0);
Which is just the equation you were looking for.
Granted, it's ridiculous that the code is not written so as to make that apparent.