Convolute[f, g, x]
convolutes f(x) and g(x), i.e., \int
_0^1 dx_1 \int _0^1 dx_2 \delta \left(x - x_1 x_2\right) f (x_1)
g(x_2).
Convolute[f, g]
is equivalent to
Convolute[f, g, x]
.
Convolute[exp, {x1, x2}]
assumes that exp
is polynomial in x1
and x2
. Convolute uses
table-look-up and does not do any integral calculations, only linear
algebra.
Overview, PlusDistribution, ConvoluteTable.
[1, 1] /. FCGV[z_] :> ToExpression[z] Convolute
-\log (x)
[x, x] /. FCGV[z_] :> ToExpression[z] Convolute
-x^2 \log (x)
[1, x] /. FCGV[z_] :> ToExpression[z] Convolute
-x \log (x)
[1, 1/(1 - x)] /. FCGV[z_] :> ToExpression[z] Convolute
\frac{\log (x)}{x-1}
[1, PlusDistribution[1/(1 - x)]] /. FCGV[z_] :> ToExpression[z] Convolute
\frac{\log (x)}{x-1}
[1/(1 - x), x] /. FCGV[z_] :> ToExpression[z] Convolute
\frac{x \log (x)}{x-1}
[1/(1 - x), 1/(1 - x)] /. FCGV[z_] :> ToExpression[z] Convolute
-\frac{\log (x)}{(x-1)^2}
[1, Log[1 - x]] /. FCGV[z_] :> ToExpression[z] Convolute
-\log (1-x) \log (x)
[1, x Log[1 - x]] /. FCGV[z_] :> ToExpression[z] Convolute
-x \log (1-x) \log (x)
[1/(1 - x), Log[1 - x]] /. FCGV[z_] :> ToExpression[z] Convolute
\frac{\log (1-x) \log (x)}{x-1}
[1/(1 - x), x Log[1 - x]] /. FCGV[z_] :> ToExpression[z] Convolute
\frac{x \log (1-x) \log (x)}{x-1}
[Log[1 - x]/(1 - x), x] /. FCGV[z_] :> ToExpression[z] Convolute
\frac{x \log (1-x) \log (x)}{x-1}
[1, x Log[x]] /. FCGV[z_] :> ToExpression[z] Convolute
-x \log ^2(x)
[Log[1 - x], x] /. FCGV[z_] :> ToExpression[z] Convolute
-x \log (1-x) \log (x)
[1/(1 - x), Log[x]/(1 - x)] /. FCGV[z_] :> ToExpression[z] Convolute
-\frac{\log ^2(x)}{(x-1)^2}
[1, Log[x]] /. FCGV[z_] :> ToExpression[z] Convolute
-\log ^2(x)
[x, x Log[x]] /. FCGV[z_] :> ToExpression[z] Convolute
-x^2 \log ^2(x)
[1/(1 - x), Log[x]] /. FCGV[z_] :> ToExpression[z] Convolute
\frac{\log ^2(x)}{x-1}
[1, Log[x]/(1 - x)] /. FCGV[z_] :> ToExpression[z] Convolute
\frac{\log ^2(x)}{x-1}
[1/(1 - x), x Log[x]] /. FCGV[z_] :> ToExpression[z] Convolute
\frac{x \log ^2(x)}{x-1}
[Log[x]/(1 - x), x] /. FCGV[z_] :> ToExpression[z] Convolute
\frac{x \log ^2(x)}{x-1}
[1, x Log[x]] /. FCGV[z_] :> ToExpression[z] Convolute
-x \log ^2(x)
[Log[x], x] /. FCGV[z_] :> ToExpression[z] Convolute
-x \log ^2(x)
[1/(1 - x), Log[1 - x]/(1 - x)] /. FCGV[z_] :> ToExpression[z] Convolute
-\frac{\log (1-x) \log (x)}{(x-1)^2}
[Log[1 - x]/(1 - x), Log[1 - x]] /. FCGV[z_] :> ToExpression[z] Convolute
\frac{\log ^2(1-x) \log (x)}{x-1}