First off, in most languages an undecorated constant like "1.55" is treated as a double precision value. However, 1.55 is not exactly representable as double precision value, because it doesn't have a terminating representation in binary. This causes many curious behaviors, but one effect is that when you type 1.55, you don't actually get the value that's exactly halfway between 1.5 and 1.6.

In binary, the decimal number 1.55 is:

```
1.10001100110011001100110011001100110011001100110011001100110011001100...
```

When you type "1.55", this value actually gets rounded to the nearest representable double-precision value (on many systems... but there are exceptions, which I'll get to). This value is:

```
1.1000110011001100110011001100110011001100110011001101
```

which is slightly *larger* than 1.55; in decimal, it's exactly:

```
1.5500000000000000444089209850062616169452667236328125
```

So, when asked to round this value to a single digit after the decimal place, it will round *up* to 1.6. This is why most of the commenters have said that they can't duplicate the behavior that you're seeing.

**But wait,** on your system, "1.55" rounded *down*, not up. What's going on?

It could be a few different things, but the most likely is that you're on a platform (probably Windows), that defaults to doing floating-point arithmetic using x87 instructions, which use a different (80-bit) internal format. In the 80-bit format, 1.55 has the value:

```
1.100011001100110011001100110011001100110011001100110011001100110
```

which is slightly *smaller* than 1.55; in decimal, this number is:

```
1.54999999999999999995663191310057982263970188796520233154296875
```

Because it is just smaller than 1.55, it rounds *down* when it is rounded to one digit after the decimal point, giving the result "1.5" that you're observing.

**FWIW:** in most programming languages, the default rounding mode is actually "round to nearest, ties to even". It's just that when you specify fractional values in decimal, you'll almost never hit an exact halfway case, so it can be hard for a layperson to observe this. You can see it, though, if you look at how "1.5" is rounded to zero digits:

```
>>> "%.0f" % 0.5
'0'
>>> "%.0f" % 1.5
'2'
```

Note that both values round to *even* numbers; neither rounds to "1".

**Edit:** in your revised question, you seem to have switched to a different python interpreter, on which floating-point is done in the IEEE754 double type, not the x87 80bit type. Thus, "1.55" rounds *up*, as in my first example, but "5.55" converts to the following binary floating-point value:

```
101.10001100110011001100110011001100110011001100110011
```

which is exactly:

```
5.54999999999999982236431605997495353221893310546875
```

in decimal; since this is *smaller* than 5.55, it rounds *down*.

biggerthan the decimal value 1.55, so it rounds up; "5.55" converts to a floating-point number that's justsmallerthan 5.55, so it rounds down.