For floating point numbers, leading zeros are accepted, and them simply ignored (since they don't contribute anything but readability).
Thus, `0040.0`

is the floating point number `40.0`

.

For integer numbers, the zero at the start of a number takes on a different meaning: depending on the next character, it indicates the rest of the number should be interpreted as an octal (`o`

or `O`

), hexadecimal (`x`

or `X`

) or binary number (`b`

or `B`

).

If another character follows the first `0`

, it will be a `SyntaxError`

. That is what you're seeing for `0040`

: there is no hint that it should be a floating point number (no 'e', 'd' or a decimal point, '.'), nor is the second zero a prefix for an different integer base.

The exact definitions for floating point and integer numbers are given in the lexical analysis of the Python reference.

The results of your comparisons evaluating to `True`

is a different beast, and just indicates that floating point 40 happens to be an exact representation, equal to integer 40.

(For how and why on integers and floats, see for example the SO question that ask about the first integer that can't be represented by a float.)

`0o`

instead of`00`

. Spot the difference.) – user707650 Jun 17 '16 at 4:03