Strangest language feature

Question

What is, in your opinion, the most surprising, weird, strange or really "WTF" language feature you have encountered?

Please only one feature per answer.

Answer 1

In PHP function names are not case sensitive. This might lead you to think that all identifiers in php are not case sensitive. Guess again. Variables ARE case sensitive. WTF.

function add($a, $b)
{
    return $a + $b;
}

$foo = add(1, 2);
$Foo = Add(3, 4);

echo "foo is $foo"; // outputs foo is 3
echo "Foo is $Foo"; // outputs Foo is 7

Answer 2

I've always been a huge fan of the PHP error thrown when using two colons in a row out of context:

Parse error: syntax error, unexpected T_PAAMAYIM_NEKUDOTAYIM in /path/to/file/error.php on line 3

The first time I encountered this I was absolutely befuddled.

Answer 3

In C

a[i++] = i;

It compiles, but it rarely does what you think it ought to do. An optimization change leads to producing wildly different results. And it runs differently on different platforms.

Yet, the compiler's perfectly happy with it.

Answer 4

Python 2.x

>>>True = False
>>>True
False

You can really make someone become crazy with this one.

Answer 5

Oracle has a couple of SQL WTF issues.

1. Oracle's treatment of empty strings as null.

2. Treatment of null values in a "<>" comparison.

   create table wtf (key number primary key, animal varchar2(10));    
   insert into wtf values (1,'dog');
   insert into wtf values (2,'');
   insert into wtf values (3,'cat');    
   select * from wtf where animal <> 'cat';
   

The only row returned is the (1,'dog') row.

Answer 6

Java has a whole freakin book about them.

book http://www.javapuzzlers.com/lg-puzzlers-cropped.jpg

Java Puzzlers

Answer 7

In JavaScript, void is not a keyword, it is not a type declaration, nor is it a variable name, and it is also not a function, nor is it an object. void is a prefix operator, similar to -, --, ++, and !. You can prefix it to any expression, and that expression will evaluate to undefined.

It is frequently used in bookmarklets, and inline event handlers, as in this somewhat frequent example:

<a href="javascript:void(0)">do nothing</a>

The way it's used in that example makes it look like a function invocation, when really it's just an overly clever way of getting the primitive undefined value. Most people don't really understand the true nature of void in JavaScript, and that can lead to a lot of nasty bugs and weird unexpected things happening.

Unfortunately, I think the void operator is the only truly guaranteed way to get the undefined value in JavaScript, since undefined, as pointed out in another answer, is a variable name that can be reassigned, and {}.a can be messed up by Object.prototype.a = 'foo'

Update: I thought of another way to generate undefined:

(function(){}())

Eh, a bit verbose though, and it's even less clear that returning "undefined" is its purpose.

Answer 8

Perl has the yada yada operator (...).

The so called “yada yada” operator of Perl 6 heritage is a shortcut to mark unimplemented code:

if ($condition) { ... }

is the same as

if ($condition) { die "not yet implemented" }

Answer 9

In fortran (77 for sure, maybe in 95 as well), undeclared variables and arguments beginning with I through N (the "in" group) will be INTEGER, and all other undeclared variables and arguments will be REAL (source). This, combined with "whitespace optional in certain cases" resulted in one of the most famous bugs.

As told by Fred Webb in alt.folklore.computers in 1990:

I worked at Nasa during the summer of 1963. The group I was working in was doing preliminary work on the Mission Control Center computer systems and programs. My office mate had the job of testing out an orbit computation program which had been used during the Mercury flights. Running some test data with known answers through it, he was getting answers that were close, but not accurate enough. So, he started looking for numerical problems in the algorithm, checking to make sure his tests data was really correct, etc.

After a couple of weeks with no results, he came across a DO statement, in the form:

DO 10 I=1.10

This statement was interpreted by the compiler (correctly) as:

DO10I = 1.10

The programmer had clearly intended:

DO 10 I = 1, 10

After changing the . to a , the program results were correct to the desired accuracy. Apparently, the program's answers had been "good enough" for the sub-orbital Mercury flights, so no one suspected a bug until they tried to get greater accuracy, in anticipation of later orbital and moon flights. As far as I know, this particular bug was never blamed for any actual failure of a space flight, but the other details here seem close enough that I'm sure this incident is the source of the DO story.

I think it's a big WTF if DO 10 I is taken as DO10I, and that in turn, because of implicit declarations is taken to be of type REAL. And it's a great story.

Answer 10

My favorite little C++ syntax trick is that you can put URL's (with some restrictions) directly into the code:

int main( int argc, char *argv[] )
{
    int i=10;

    http://www.stackoverflow.com
    return 1;
}

This compiles just fine.

Syntax highlighting kind of spoils the joke, but it's still fun.

Answer 11

I would not dare to claim that XML is a programming language, but isn't it close to our heart? :-)

The strangest feature, to my mind, in XML is that the following is a well-formed document:

<_....>
</_....>

Here is the the lexical definition of NT-Name that allows consecutive dots.

Answer 12

Inheriting from random class in Ruby:

class RandomSubclass < [Array, Hash, String, Fixnum, Float, TrueClass].sample
   ...
end

(first seen at Hidden features of Ruby)

Answer 13

I was taken by surprise that you can change a class's inheritance chain in Perl by modifying its @ISA array.

package Employee;
our @ISA = qw(Person);
# somwhere far far away in a package long ago
@Employee::ISA = qw(Shape); 
# Now all Employee objects no longer inherit from 'Person' but from 'Shape'

Answer 14

I love the fact that this sort of thing is fine in JavaScript:

var futureDate = new Date(2010,77,154);
alert(futureDate);

and results in a date 77 months and 154 days from the 0th day of 0th month of 2010 i.e. Nov 1st 2016

Answer 15

In JavaScript, undefined is a global variable whose default value is the primitive value undefined. You can change the value of undefined:

var a = {};
a.b === undefined; // true because property b is not set
undefined = 42;
a.b === undefined; // false

Due to the mutability of undefined, it is generally a better idea to check for undefined-ness through typeof:

var a = {};
typeof a.b == "undefined"; // always true

Answer 16

In ruby/python/c, you can concatenate strings just like this:

a = "foo" "bar"
print a # => "foobar"

Answer 17

In Forth, anything that does not contains spaces can be an identifier (things that contain spaces take a bit of work). The parser first checks if the thing is defined, in which case it is called a word, and, if not, checks if it is a number. There are no keywords.

At any rate, this means that one can redefine a number to mean something else:

: 0 1 ;

Which creates the word 0, composed of 1, whatever that was at the time this was executed. In turn, it can result in the following:

0 0 + .
2 Ok

On the other hand, a definition can take over the parser itself -- something which is done by the comment words. That means a Forth program can actually become a program in a completely different language midway. And, in fact, that's the recommended way of programming in Forth: first you write the language you want to solve the problem in, then you solve the problem.

Answer 18

I added the "format" function to Lisp in about 1977, before "printf" even existed (I was copying from the same source as Unix did: Multics). It started off innocently enough, but got laden with feature after feature. Things got out of hand when Guy Steele put in iteration and associated features, which were accepted into the Common Lisp X3J13 ANSI standard. The following example can be found at Table 22-8 in section 22.3.3 of Common Lisp the Language, 2nd Edition:

(defun print-xapping (xapping stream depth)
  (declare (ignore depth))
  (format stream
      "~:[{~;[~]~:{~S~:[->~S~;~*~]~:^ ~}~:[~; ~]~ ~{~S->~^ ~}~:[~; ~]~[~*~;->~S~;->~*~]~:[}~;]~]"
      (xectorp xapping)
      (do ((vp (xectorp xapping))
           (sp (finite-part-is-xetp xapping))
           (d (xapping-domain xapping) (cdr d))
           (r (xapping-range xapping) (cdr r))
           (z '() (cons (list (if vp (car r) (car d)) (or vp sp) (car r)) z)))
          ((null d) (reverse z)))
      (and (xapping-domain xapping)
           (or (xapping-exceptions xapping)
           (xapping-infinite xapping)))
      (xapping-exceptions xapping)
      (and (xapping-exceptions xapping)
           (xapping-infinite xapping))
      (ecase (xapping-infinite xapping)
        ((nil) 0)
        (:constant 1)
        (:universal 2))
      (xapping-default xapping)
      (xectorp xapping)))

Answer 19

MUMPS. There are lots of WTF features, I've picked one, the if statement. (Note that I'm using a rather verbose coding style below in order to accomodate those who don't know the language; real MUMPS code is usually more inscrutable to the uninitiated.)

if x>10 do myTag(x)    ; in MUMPS "tag" means procedure/function
else  do otherTag(x)

This is similar to saying in Java:

if (x > 10) {
  myMethod(x);
} else {
  otherMethod(x);
}

Except that in MUMPS, the else statement isn't syntactically part of the if block, it is a separate statement that works by examining the built-in variable $TEST. Every time you execute an if statement it sets $TEST to the result of the if statement. The else statement actually means "execute the rest of line if $TEST is false, otherwise skip to the next line".

This means that if x was greater than 10 and thus the first line called myTag, and myTag contains if statements, then the behavior of the else depends not on the if in the line above it but on the last if evaluated inside of myTag! Because of this "feature", MUMPS coders are generally taught write the above code like this to be safe:

if x>10 do myTag(x) if 1
else  do otherTag(x)

The if 1 at the end of the first line ensures that $TEST is set correctly before control proceeds to the next line. (BTW, the spacing here has to be just so, with two spaces after the else and one space in all the other places. The spacing is odd but at least it's very orthogonal once you understand the pattern.)

Answer 20

Tri-valued logic of nulls in ANSI SQL.

Answer 21

An amusing side effect of Python's everything-is-really-a-reference:

>>> a = [[1]] * 7
>>> a
[[1], [1], [1], [1], [1], [1], [1]]
>>> a[0][0] = 2
>>> a
[[2], [2], [2], [2], [2], [2], [2]]

Answer 22

In JavaScript, you can use a double bitwise negation (~~n) as a replacement for Math.floor(n) (if n is a positive number) or parseInt(n, 10) (even if n is negative). n|n and n&n always yield the same results as ~~n.

var n = Math.PI;
n; // 3.141592653589793
Math.floor(n); // 3
parseInt(n, 10); // 3
~~n; // 3
n|n; // 3
n&n; // 3

// ~~n works as a replacement for parseInt() with negative numbers…
~~(-n); // -3
(-n)|(-n); // -3
(-n)&(-n); // -3
parseInt(-n, 10); // -3
// …although it doesn’t replace Math.floor() for negative numbers
Math.floor(-n); // -4

A single bitwise negation (~) calculates -(parseInt(n, 10) + 1), so two bitwise negations will return -(-(parseInt(n, 10) + 1) + 1).

Update: Here’s a jsPerf test case comparing the performance of these alternatives.

Answer 23

Not so much a weird feature, but one that's really irritating from a type-safety point of view: array covariance in C#.

class Foo { }
class Bar : Foo { }
class Baz : Foo { }

Foo[] foo = new Bar[1];
foo[0] = new Baz(); // Oh snap!

This was inherited (pun intentional) from Java, I believe.

Answer 24

My favorite weirdness in C is 5["Hello World"], but since that was already posted, my next-favorite weirdness is the Windows versioned-structure initialization hack:

void someWindowsFunction() {
    BITMAPINFOHEADER header = {sizeof header};

    /* do stuff with header */
}

That one, subtle line accomplishes the following:

1. Declares a BITMAPINFOHEADER structure
2. Concisely sets the "size" member of the structure, without hardcoding a size constant (since many Window structures, including BITMAPINFOHEADER, follow the convention of specifying the size of the structure as the first member}
3. Declares the version of the structure (since many Windows structures, including BITMAPINFOHEADER, identify their version by the declared size, following the convention that structures definitions are append-only)
4. Clears all other members of the structure (a C standard behavior when a structure is incompletely initialized).

Answer 25

Java; making all object instances be mutexes.

Answer 26

In PHP one can do:

System.out.print("hello");

Answer 27

In JavaScript:

alert(111111111111111111111) // alerts 111111111111111110000

This was quite damaging to some 64bit keys I passed back and forth in JSON.

Answer 28

else in Python's for loops.

From the Python documentation:

for n in range(2, 10):
    for x in range(2, n):
        if n % x == 0:
            print n, 'equals', x, '*', n/x
            break
    else:
        # loop fell through without finding a factor
        print n, 'is a prime number'

Output:

2 is a prime number
3 is a prime number
4 equals 2 * 2
5 is a prime number
6 equals 2 * 3
7 is a prime number
8 equals 2 * 4
9 equals 3 * 3

Answer 29

Some early dynamic languages (including, if I remember correctly, early versions of Perl) hadn't figured out what was good dynamism and what was bad dynamism. So some of them allowed this:

1 = 2;

After that statement, the following would be true:

if(1 + 1 == 4)

Answer 30

In Python, the "compile time" (or declaration time) evaluation of function arguments can be confusing:

def append(v, l = []):
    l.append(v)
    return l


print append(1)
print append(2)

>>> [1]
>>> [1,2]

The intention might have been:

def append(v, l = None):
    if l is None:
        l = []
    l.append(v)
    return l

print append(1)
print append(2)

>>> [1]
>>> [2]

This behavior is useful for things like caching, but it can be dangerous.

A bonus feature: tuples with mutable contents:

a = (1,2,[3])
a[2][:] = [4] # OK
a[2] = [2] # crashes