Can a mathematical function like `sin()`

be redefined, in Fortran, C or Java code, while preserving the default behavior of other mathematical functions like `cos()`

? Or can another function named `sin()`

but that accepts different argument types be defined in addition to the built-in `sin()`

? I am interested in general features of these languages (I am thinking of applications like the implementation of non-usual number algebras).

I tried to define a `sin()`

function in a Fortran 95 program, but the intrinsic `sin()`

function was called instead… Is there a way around this? what about C and Java?

**PS**: Here is an example of application: you have some calculation code already written; you realize that it would be useful if all the calculations could yield numbers with uncertainties (like 3.14±0.01). It would be convenient to keep all mathematical expressions (like for instance `z = sin(x+2*y)`

) unmodified in the code, even if `x`

and `y`

are numbers with uncertainties (instead of floats). This is an exemple of why having a `sin()`

function that generalizes the usual sine function is useful.

The reason why I also included in the question the condition that certain functions be not modified is that a custom library that calculates the uncertainty on `sin(x)`

when `x`

has an uncertainty might not implement all the standard functions, so it would be nice to still be able to have access to some standard functions.

These features are present in Python, and this makes using the uncertainties Python module (which I wrote) quite convenient. I would be interested to know better how much of this convenience is due to Python being the language it is, and how convenient a similar uncertainty calculation library written for C, Fortran or Java could be.