What is, in your opinion, the most surprising, weird, strange or really "WTF" language feature you have encountered?
Please only one feature per answer.
What is, in your opinion, the most surprising, weird, strange or really "WTF" language feature you have encountered?
Please only one feature per answer.
C (ISO/IEC 9899:1999, 6.4.6/3) and C++ (ISO/IEC 14882:2003, 2.5) have a feature that is rarely used, called "digraphs" by C and "alternative tokens" by C++. These differ from trigraphs mainly because string literals containing them will never be interpreted differently.
%:include <stdio.h>
int main() <%
int a<:10:> = <%0%>;
printf("Here's the 5th element of 'a': %d\n", a<:4:>);
puts("Evil, eh? %:>");
return 0;
%>
C++ has many more, including and, or, and not which are required to behave as &&
, ||
, and !
. C has these too, but requires that <iso646.h> be included to use them, treating them as macros rather than tokens. The C++ header <ciso646> is literally an empty file.
It's worth noting that GCC implements support for this weird language feature, but lots of other compilers choke and die when trying to compile the above segment of code.
PHP's list construct:
$array = array(0,1,2);
list (,,$x) = $array;
$x == 2; // true
$array = array('id','field','value');
and... $x == 'value'; // true
. Great for queries!
Jun 11, 2010 at 1:53
Forth can change the base of the numbers at any time:
HEX 10 DECIMAL 16 - .
0 Ok
It need not be one pre-defined one either:
36 BASE ! 1Z DECIMAL .
71 Ok
Variables everywhere are taken as globals in Coldfusion, no matter where they are placed.
<cffunction name="one" returntype="void">
<cfset var wtf="coldfusion">
<cfinvoke method="second">
</cffunction>
<cffunction name="two" returntype="void">
<cfoutput>#wtf#</cfoutput>
</cffunction>
In Python:
>>> x = 4
>>> y = 1000000
>>> x is 4
True
>>> y is 1000000
False
>>>
Just try it if you don´t believe me!
x = 4
actually is a reference to an already existing number, whereas y is simply to big to be stored by default, so both constants create new objects.
is
and you are fine.
In php:
easter_date — Get Unix timestamp for midnight on Easter of a given year
int easter_date ([ int $year ] )
In Java (Actually, I have wrote this on different SO post recently) :
int x = 1 + + + + + + + + + + + + + 1;
System.out.println(x);
SQLite lets you declare columns with whatever data type you want. It looks for a few particular substrings ("INT", "REAL", "TEXT", etc.) to determine the affinity.
This makes it possible to lie in your type declarations:
CREATE TABLE Quirks (
X FLOATING POINT, -- = INTEGER affinity because of the "INT"
Y STRING, -- = NUMERIC affinity
);
This old PHP favorite isn't all that WTFish on its own, but a scope resolution error is one of those things that gets seen by so many developers that it's worth giving some WTF love:
$class = new StdClass();
$class::test();
PHP Parse error: syntax error, unexpected T_PAAMAYIM_NEKUDOTAYIM on line 3
Fortran's special meaning of different columns. (Probably completely natural if you grew up with punchcards.)
One side effect of this is that e.g. variable names are truncated after column 72. Combined with IMPLICIT NONE
this then silently introduces a new variable when such a variable name is started close to column 72.
You'll need
to be aware of this
an editor which highlights the comment part (after column 72) in a different color than the part before...
Perl's $[
(deprecated), this was mentioned in another earlier post about generic perl variables, but it deserves specific mention with better explanation. Changes to $[ are limited to current scope. More information and a quick writeup of how you can use this and its implications ;) can be found in $[ is under respected at http://www.perlmonks.org/index.pl/?node_id=480333
{local $[=1; ...}
Jan 6, 2010 at 2:31
$[
, and local doesn't lexically scope anything.. It simply stores the global value in a private register, and restores it at the end of the lexical scope. However, the variable is still global in nature.
Apr 8, 2011 at 5:35
To alternate between things in many languages:
boolean b = true;
for(int i = 0; i < 10; i++)
if(b = !b)
print i;
on first glance: how can b really not be equal to itself!? This acctually would print odd numbers only
++
and --
are notable counterexamples.
Dec 19, 2011 at 5:47
Perl's sub
not having a real parameter list, just the @_ array. Also, sub
's auto-flattening the parameters that are passed into it.
I don't understand why this is a persistent feature; this reflects what I had to do as a kludge on my TI-86 BASIC years ago because the language wasn't featured enough.
An odd feature in PHP which allows you to create and assign variables from the content of other variables (warning, untested code):
$a = 'Juliet';
$$a = 'awesome'; // assigns a variable named $Juliet with value 'awesome'
echo '$a'; // prints Juliet
echo '${$a}'; // prints awesome
echo '$Juliet'; // prints awesome
Alright, let's say we have something like this:
$bob = 'I\'m bob';
$joe = 'I\'m joe';
$someVarName = 'bob';
$$someVarName = 'Variable \'bob\' changed';
How about some fun with all kinds of indirection:
$juliet = 'Juliet is awesome!';
$func = 'getVarName'
echo '${$func()}'; // prints 'Juliet is awesome!'
function getVarName() { return 'juliet'; }
use strict
(or specifically use strict 'refs'
). But I prefer symbol table games: $a = 1; *b = \$a; $b = 2;
Now guess what $a is? yep! (serves you right for using package globals!)
C#, namespace reslove order
for example.
namespace foo.bar.xyz{
public class Foo{
Exception e; // you'll get compile time error here....
}
}
Because
namespace foo.bar.Exception{
class HowDoMyWayException : ApplicationException {
// because someone did this
}
}
In C++, you can do:
std::string my_str;
std::string my_str_concat = my_str + "foo";
But you can't do:
std::string my_str_concat = "foo" + my_str;
Operator overloading is generally subject to WTF.
operator+(const char *, std::string)
function, which will allow "foo" + my_str
. In an operator overload, you need at least one user-defined type (class, enum, etc.), but it needn't be the first one. Operator overloading is usually not a good idea, but it can be very useful on occasion.
Feb 18, 2010 at 20:18
char* dir=...; std::ifstream in((std::string(dir) + "/" + file).c_str());
steals it though
Aug 3, 2011 at 12:42
In ColdFusion arrays start at 1.
not that this is heavily used, but syntax of C++'s "return reference to static-size array" is weird:
struct SuperFoo {
int (&getFoo() const)[10] {
static int foo[10];
return foo;
}
}
ofc, in above case method can be declared as static const
In Python:
abs((10+5j)-(25+-5j))
Returns ~18.03, which is the distance between the points (10,5) and (25,5) by the Pythagoras theorem. This fact happens because Python has native language support to complex numbers in the form of 2+2j for example. Since the absolute value of a complex number in form of a+bj = sqrt(a^2+b^2), we get the distance while subtracting one complex number from another and then apply the abs (absolute) function over it.
i
was already taken, so they used j
instead. I couldn't find the comp.lang.python postings, but see, for example, this python-tutor thread.
Nov 15, 2011 at 14:10
In two words: multiple inheritance. It makes no sense, and creates nothing but trouble.
Edit - I am referring to MI in C++, not mixins and the like in Java and other languages.
Feature: Bash, the Korn shell (ksh93) and the Z shell each allow subscripting arrays with variables with or without a dollar sign:
array[index]=$value
array[$index]=$value
This, with the dollar sign, will produce the expected value of 10000:
unset array
for i in {1..10000}
do
((array[$RANDOM%6+1]++))
done
unset total
for count in ${array[@]}
do
((total += count))
done
echo $total
Strangeness: If you remove the dollar sign from RANDOM, the total will vary randomly, even to be greater than 10000.
Similarly, this produces 3 instead of 2:
a=1; ((r[a++]++)); echo $a
And you can't use a dollar sign there because it's an assignment (a is on the lhs), although you could do it if you were using indirection, but the double evaluation still occurs.
The Reason: With the dollar sign, the variable expansion is performed before the arithmetic evaluation so only gets done once. Without the dollar sign, it's performed twice, once to calculate the index for the lookup and again to calculate the index for the assignment (so, in effect, an assignment at one step in the loop might look like array[4] = $array[6] + 1
which totally scrambles the array).
var_export('false' == 0); // true
var_export('false' == true); // true
var_export('false' == false); // false
EDIT
As @Kobi mentioned, it could happen because language interpret any value as "TRUE" except "FALSE", but not in case of PHP, where things are even more strange than you thought!
This case is fully documented in chapter "String conversion to numbers" of a PHP manual, which says:
If the string starts with valid numeric data, this will be the value used. Otherwise, the value will be 0 (zero).
Here is example:
print (int) 'zero'; // 0
print (int) 'false'; // 0
// but
print (int) '1 - one'; // 1
P.S. I see more harm than usefulness of such implicit type conversions.
false
(some languages behave that way) - 0
is true, and 'any string'
is true.
1 == 2
would also be true. The test isn't ('false' && 0)
, it's ('false' == 0)
. PHP is just crazy.
Jul 21, 2010 at 7:10
:P
, but the direction is right - show some more asserts and see if it makes sense, draw a whole picture.
In Ruby, you can do some weird things with heredocs. Consider:
a = <<ONE
This is one. #{<<TWO}
This is two. #{<<THREE}
This is three.
THREE
TWO
ONE
p a # => "This is one. This is two. This is three.\n\n\n"
Ruby Flip-Flops. "..." and ".." in conditional statements are not always range operators:
(0..20).each do |x|
if ((x%10) == 5)..((x%10) == 5)
print "#{x} "
end
end
(0..20).each do |x|
if ((x%10) == 5)...((x%10) == 5)
print "#{x} "
end
end
This will output:
5 15
5 6 7 8 9 10 11 12 13 14 15
.. checks both statements on each pass, ... only checks the "on" or "off" statement in each pass (depending on the flip-flop state). They are stolen from awk and sed.
Matz writes in "The Ruby Programming Language": "Flip-flops are a fairly obscure feature of Ruby and probably best avoided..."
Since I haven't seen anyone mention it... RPG 2 or 3 (Report Program Generator... aka Rocket Propelled Garbage) is by far the screwyest language I've ever used. It combines almost no control over program flow (Enter at the top of the file, Exit at the bottom) and programming statements are defined based on characters defined in specific columns using a fixed font (think PUNCH CARDS!!).
To be really FUBAR you have to attempt to program in DYL-280. It combined RPG flow and logic with COBOL syntax.
Look here for RPG: wikipedia.org /wiki/IBM_RPG
An example of DYL-280: http://99-bottles-of-beer.net/language-dyl-280-224.html
For those who didn't know, PostScript is actually a programming language. I've gotten a bit insane with it -- I wrote a PostScript program that computes a Mandelbrot fractal to a very high level of detail. It's really printable PostScript, though it will crash a lot of print drivers...
Anyway, where to start with PostScript... Here's one: You can actually create a variable whose identifier is.... nothing.
() cvn 5 def % Assign the number 5 to... nothing
PostScript is a stack-based language. () puts an empty string on the stack. cvn converts it to a name ("/" if you print it, because all names in PS are preceded by a slash). Then 5 def assigns the value 5 to it. (% is the comment character)
You can't directly get it back, e.g. if I say "/ print", this will not print the number 5. But you can get it back indirectly:
() cvn load print % this will print the number 5
What else... PostScript has dictionaries as a native type, and you can use an array reference as a key to the dictionary... but it is the REFERENCE that is the key, not the array. So:
/myDict 100 dict def
[0] dup myDict exch 42 put myDict exch get == % prints 42
myDict [1] 42 put myDict [1] get % throws an undefined error
Edit: Oh yeah, one more fun thing... Try the following at a Ghostscript prompt:
1 array dup dup 0 exch put ==
D'oh!
Here's some messing around in the Perl debugger:
DB<1> sub foo { +(1..20) }
DB<2> @bar = foo(); # list of 1, 2, 3, 4...20
DB<3> x scalar @bar # size of list
0 20
DB<4> x scalar foo();
0 ''
That's right. When you call the method like that, the scalar context from scalar
propagates down into the subroutine call, turning the innocuous-looking ..
into an entirely different operator. (That's the "flip-flop" operator, instead of the range operator).
One of my C++ favorites:
#include <iostream>
using namespace std;
int main()
{
cout << 3 << 5 << endl;
cout << (3 << 5) << endl;
return 0;
}
Of course, this is easily explainable, but it has beginning programming students scratching their heads!
PHP backticks
From http://www.php.net/manual/en/language.operators.execution.php
PHP supports one execution operator: backticks (``). Note that these are not single-quotes! PHP will attempt to execute the contents of the backticks as a shell command; the output will be returned (i.e., it won't simply be dumped to output; it can be assigned to a variable).
$output = `ls -al`;
echo "<pre>$output</pre>";
Well it's "quite easy" to spot ` instead of ' in the code.
This is funny, too:
After much trouble, I have concluded that the backtick operator (and shell_exec) have a limited buffer for the return. My problem was that I was grepping a file with over 500,000 lines, receiving a response with well over 100,000 lines. After a short pause, I was flooded with errors from grep about the pipe being closed.
RSL programming language is used in one strange banking system. There is built-in class TArray
for arrays. But if you inherit from it every instance variable become an element of the array.
class (TArray) DerivedArray
var someField = 56;
end
var a = DerivedArray();
PrintLn(a.Size); // => 1
PrintLn(a[0]); // => 56