Yeah, several suggestions (implemented in version 1 below): `if`

loop can be combined with `for`

above it (just make `index`

skip `k`

via something like `jr(jr~=j)`

below); `polynomialSize`

is always equal `length(outputConv)`

which is always equal `n`

(because you have `n`

datapoints, `(n-1)th`

polynomial with `n`

coefficients), so the last `for`

loop and next line can be also replaced with simple `L(k,:) = multiplier * outputConv;`

So I replicated the example on http://en.wikipedia.org/wiki/Lagrange_polynomial (and adopted their `j-m`

notation, but for me `j`

goes `1:n`

and `m`

is `1:n`

and `m~=j`

), hence my initialization looks like

```
clear; clc;
X=[-9 -4 -1 7]; %example taken from http://en.wikipedia.org/wiki/Lagrange_polynomial
Y=[ 5 2 -2 9];
n=length(X); %Lagrange basis polinomials are (n-1)th order, have n coefficients
lj = zeros(1,n); %storage for numerator of Lagrange basis polyns - each w/ n coeff
Lj = zeros(n); %matrix of Lagrange basis polyns coeffs (lj(x))
L = zeros(1,n); %the Lagrange polynomial coefficients (L(x))
```

then v 1.0 looks like

```
jr=1:n; %j-range: 1<=j<=n
for j=jr %my j is your k
multiplier = 1;
outputConv = 1; %numerator of lj(x)
mr=jr(jr~=j); %m-range: 1<=m<=n, m~=j
for m = mr %my m is your index
outputConv = conv(outputConv,[1 -X(m)]);
multiplier = multiplier * ((X(j) - X(m))^-1);
end
Lj(j,:) = multiplier * outputConv; %jth Lagrange basis polinomial lj(x)
end
L = Y*Lj; %coefficients of Lagrange polinomial L(x)
```

which can be further simplified if you realize that numerator of l_j(x) is just a polynomial with specific roots - for that there is a nice command in matlab - `poly`

. Similarly the denominator is just that polyn evaluated at X(j) - for that there is `polyval`

. Hence, v 1.9:

```
jr=1:n; %j-range: 1<=j<=n
for j=jr
mr=jr(jr~=j); %m-range: 1<=m<=n, m~=j
lj=poly(X(mr)); %numerator of lj(x)
mult=1/polyval(lj,X(j)); %denominator of lj(x)
Lj(j,:) = mult * lj; %jth Lagrange basis polinomial lj(x)
end
L = Y*Lj; %coefficients of Lagrange polinomial L(x)
```

Why version 1.9 and not 2.0? well, there is probably a way to get rid of this last for loop, and write it all in 1 line, but I can't think of it right now - it's a todo for v 2.0 :)

And, for dessert, if you want to get the same picture as wikipedia:

```
figure(1);clf
x=-10:.1:10;
hold on
plot(x,polyval(Y(1)*Lj(1,:),x),'r','linewidth',2)
plot(x,polyval(Y(2)*Lj(2,:),x),'b','linewidth',2)
plot(x,polyval(Y(3)*Lj(3,:),x),'g','linewidth',2)
plot(x,polyval(Y(4)*Lj(4,:),x),'y','linewidth',2)
plot(x,polyval(L,x),'k','linewidth',2)
plot(X,Y,'ro','linewidth',2,'markersize',10)
hold off
xlim([-10 10])
ylim([-10 10])
set(gca,'XTick',-10:10)
set(gca,'YTick',-10:10)
grid on
```

produces

enjoy and feel free to reuse/improve