Bitwise AND, "a & b", should be thought of as

```
function _bitwise_and(A,B):
# A and B are Python expressions
# which result in lists of 1's and 0's
a = A.evaluate()
b = B.evaluate()
return [ 1 if abit==1 and bbit==1 else 0 for abit,bbit in zip(a,b)]
```

so, graphically,

```
a: ... 0 1 1 0
b: ... 1 0 1 0
--------
a&b ... 0 0 1 0 <- each bit is 1 if-and-only-if the
corresponding input bits are both 1
```

and the result is a list of bits, packed into an integer.

.

Logical AND, "a and b", should instead be thought of as

```
function _and(A,B):
# A and B are Python expressions which result in values having truthiness
a = A.evaluate()
if is_truthy(a):
b = B.evaluate()
return b
else:
return a
```

.

Notice: if the result of A is falsy, B never gets evaluated - so if expression B has an error when evaluated, **bitwise AND will result in an error** while **logical AND will not**.

This is the basis for the common Python idiom,

```
while (offset in data) and test(data[offset]):
do_something_to(data[offset])
next offset
```

... because data[offset] is only evaluated if offset is a useable (non-error-producing) value.

By using '&' instead of 'and', you guarantee an error by evaluating data[last_offset+1] at the end of your loop.

.

Of course, this could have been avoided with another common idiom:

```
for ch in string if ch=='c':
do_something_to(ch)
```

which avoids IndexError problems altogether.

`&`

operator? – S.Lott Jan 17 '11 at 14:09`p = string.find(c)`

(returns -1 instead of`len(string)-1`

if it's not there - so it's even better, as in, not ambiguous)? – delnan Jan 17 '11 at 16:27