The problem is that the `DECODE`

forces an implicit conversion. The return datatype of the `DECODE`

function is determined by the rule:

```
DECODE(expr, search, result [, search, result]* [, default])
```

Oracle automatically converts `expr`

and each `search`

value to the data type of the first `search`

value before comparing. Oracle automatically converts the return value to the same data type as the first `result`

. If the first `result`

has the data type CHAR or **if the first **`result`

is null, then Oracle converts the return value to the data type `VARCHAR2`

.

In Oracle `NULL`

has the default datatype of `VARCHAR2`

so your `DECODE`

expression is equivalent to:

```
DECODE(TO_NUMBER(src.retirement), 0,
NULL,
TO_CHAR(TO_DATE(src.retirement, 'YYYY.MM.DD')));
```

Without format, the `TO_CHAR`

uses your `NLS_DATE_FORMAT`

session setting, probably the default `DD-MON-RR`

which loses the century information.

As noted in this related question, the rules for `RR`

are as follow:

- If the specified two-digit year is 00 to 49, then
- If the last two digits of the current year are 00 to 49, then the returned year has the same first two digits as the current year.
- If the last two digits of the current year are 50 to 99, then the first 2 digits of the returned year are 1 greater than the first 2 digits of the current year.

- If the specified two-digit year is 50 to 99, then
- If the last two digits of the current year are 00 to 49, then the first 2 digits of the returned year are 1 less than the first 2 digits of the current year.
- If the last two digits of the current year are 50 to 99, then the returned year has the same first two digits as the current year.

This is why dates before 2050 had not triggered the mysterious behaviour!

`TO_NUMBER()`

on a value like`2050.05.20`

you'll get an invalid number exception, so the first condition of the`DECODE`

should throw for non-zero dates. – Ed Gibbs May 31 '13 at 14:57