I see that the knowledge of *fortran* here is still on the '66 version.

Fortran has variable both the lower and the upper bounds of an array.

Meaning, if you declare an array like:

```
real, dimension (90) :: x
```

then 1 will be the lower bound (by default).

If you declare it like

```
real, dimension(0,89) :: x
```

then however, it will have a lower bound of 0.

If on the other hand you declare it like

```
real, allocatable :: x(:,:)
```

then you can allocate it to whatever you like. For example

```
allocate(x(0:np,0:np))
```

means the array will have the elements

```
x(0, 0), x(0, 1), x(0, 2 .... np)
x(1, 0), x(1, 1), ...
.
.
.
x(np, 0) ...
```

There are also some more interesting combinations possible:

```
real, dimension(:, :, 0:) :: d
real, dimension(9, 0:99, -99:99) :: iii
```

which are left as homework for the interested reader :)

These are just the ones I remembered off the top of my head. Since one of fortran's main strengths are array handling capabilities, it is clear that there are lot of other in&outs not mentioned here.

nothingto do with real programming questions andeverythingto do with a certain programmer's subculture that is coddled by this site. A subculture that is both parochial and close-minded.14more comments