The strong <=> weak typing is not only about the continuum on how much or how little of the values are coerced automatically by the language for one datatype to another, but how strongly or weakly the actual values are typed. In Python and Java, and mostly in C#, the values have their types set in stone. In Perl, not so much - there are really only a handful of different valuetypes to store in a variable.
Let's open the cases one by one.
In Python example
1 + "1",
+ operator calls the
__add__ for type
int giving it the string
"1" as an argument - however, this results in NotImplemented:
Next, the interpreter tries the
__radd__ of str:
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
AttributeError: 'str' object has no attribute '__radd__'
As it fails, the
+ operator fails with the the result
TypeError: unsupported operand type(s) for +: 'int' and 'str'. As such, the exception does not say much about strong typing, but the fact that the operator
+ does not coerce its arguments automatically to the same type, is a pointer to the fact that Python is not the most weakly typed language in the continuum.
On the other hand, in Python
'a' * 5 is implemented:
>>> 'a' * 5
The fact that the operation is different requires some strong typing - however the opposite of
* coercing the values to numbers before multiplying still would not necessarily make the values weakly typed.
The Java example,
String result = "1" + 1; works only because as a fact of convenience, the operator
+ is overloaded for strings. The Java
+ operator replaces the sequence with creating a
StringBuilder (see this):
String result = a + b;
// becomes something like
String result = new StringBuilder().append(a).append(b).toString()
This is rather an example of very static typing, without no actual coercion -
StringBuilder has a method
append(Object) that is specifically used here. The documentation says the following:
Appends the string representation of the
The overall effect is exactly as if the argument were converted to a
string by the method
String.valueOf(Object), and the characters of
that string were then appended to this character sequence.
Returns the string representation of the Object argument.
[Returns] if the argument is
null, then a string equal to
"null"; otherwise, the value of
obj.toString() is returned.
Thus this is a case of absolutely no coercion by the language - delegating every concern to the objects itself.
According to the Jon Skeet answer here, operator
+ is not even overloaded for the
string class - akin to Java, this is just convenience generated by the compiler, thanks to both static and strong typing.
As the perldata explains,
Perl has three built-in data types: scalars, arrays of scalars, and associative arrays of scalars, known as "hashes". A scalar is a single string (of any size, limited only by the available memory), number, or a reference to something (which will be discussed in perlref). Normal arrays are ordered lists of scalars indexed by number, starting with 0. Hashes are unordered collections of scalar values indexed by their associated string key.
Perl however does not have a separate data type for numbers, booleans, strings, nulls,
undefineds, references to other objects etc - it just has one type for these all, the scalar type; 0 is a scalar value as much as is "0". A scalar variable that was set as a string can really change into a number, and from there on behave differently from "just a string", if it is accessed in a numerical context. The scalar can hold anything in Perl, it is as much the object as it exists in the system. whereas in Python the names just refers to the objects, in Perl the scalar values in the names are changeable objects. Furthermore, the Object Oriented Type system is glued on top of this: there are just 3 datatypes in perl - scalars, lists and hashes. A user defined object in Perl is a reference (that is a pointer to any of the 3 previous)
blessed to a package - you can take any such value and bless it to any class at any instant you want.
Perl even allows you to change the classes of values at whim - this is not possible in Python where to create a value of some class you need to explicitly construct the value belonging to that class with
object.__new__ or similar. In Python you cannot really change the essence of the object after the creation, in Perl you can do much anything:
my $val = 42;
# $val is now a scalar value set from double
bless \$val, Foo;
# all references to $val now belong to class Foo
my $obj = \$val;
# now $obj refers to the SV stored in $val
# thus this prints: Foo=SCALAR(0x1c7d8c8)
print \$val, "\n";
# all references to $val now belong to class Bar
bless \$val, Bar;
# thus this prints Bar=SCALAR(0x1c7d8c8)
print \$val, "\n";
# we change the value stored in $val from number to a string
$val = 'abc';
# yet still the SV is blessed: Bar=SCALAR(0x1c7d8c8)
print \$val, "\n";
# and on the course, the $obj now refers to a "Bar" even though
# at the time of copying it did refer to a "Foo".
print $obj, "\n";
thus the type identity is weakly bound to the variable, and it can be changed through any reference on the fly. In fact, if you do
my $another = $val;
\$another does not have the class identity, even though
\$val will still give the blessed reference.
There are much more about weak typing to Perl than just automatic coercions, and it is more about that the types of the values themselves are not set into stone, unlike the Python which is dynamically yet very strongly typed language. That python gives
1 + "1" is an indication that the language is strongly typed, even though the contrary one of doing something useful, as in Java or C# does not preclude them being strongly typed languages.