This Program Will Make You Mad

yeah for sure I added you

@QwertyQwerty54 ;-; I added him to the repl which is why I made it a repl in the first place so I could add up to 100 people

So you mean that you have invited me on the repl?

oh yeah I forgot we started using a Repl instead of the team lol

This thread is getting diverted so another code some might understand and like

,>,<[>[->+>+<<]>>[-<<+>>]<-]>>.

Anyone know what language this code comes from?

iiisdsiiiiiiiioiiiiiiiiiiiiiiiiiiiiiiiiiiiiioiiiiiiiooiiio
dddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddoddddddddddddo
dddddddddddddddddddddsddoddddddddoiiioddddddoddddddddo
dddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddo

Output:
Hello, world!

This is one of those languages using non decimal base coding?

Somebody here knows the language Shakespeare?

The Infamous Hello World Program.
Act I: The beginning of the play.

Scene I: The prologue.

[Enter Hamlet and Romeo]

Hamlet:
You shall be the star tonight.

[Exit Romeo]

Scene II: The noble banner.

[Exeunt]

[Enter Hamlet and Juliet]

Hamlet:
You are as sweet as the sum of Romeo and his horse.

Juliet:
Speak thy mind!

[Exit Juliet]

Scene III: The ball.

[Enter Hamlet and Romeo]

Romeo:
Thou art as handsome as an onion.

Hamlet:
Thou art as small as a mite, as large as a whale.

[Exit Romeo]

Scene IV: The balcony.

[Enter Juliet]

Juliet:
Speak your mind!

Hamlet:
[Aside] She speaks. O, speak again, bright angel!

Juliet:
O Romeo, Romeo! Wherefore art thou Romeo?

[Exit Juliet]

Scene V: The end of the play.

[Exeunt]

I never read Hamlet but I had to read Romeo and Juliet. Interesting.

This program outputs the phrase “You are as sweet as the sum of Romeo and his horse.”
Super weird.

now it’s even worse.

(lambda _Y: (lambda range: (lambda ඞඞඞ: (lambda ඞඞඞඞ: (lambda ඞඞඞඞඞ: (lambda ඞඞ: (lambda ඞ: [ඞ(range, ඞඞ(range, ඞඞඞඞ)), [ඞ(range, (range, (35 ** 0))[(35 ** 0)]), [range.extend(['ord', 'H ']), ([print('dsada'), (lambda ඞඞn: (lambda console: (lambda ඞCඞඞ: (lambda _term1, _items1: (lambda _targ1: (lambda _targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ: (lambda _loop1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(_Y(lambda _loop1: (lambda _targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ: ((lambda print: (lambda ඞCඞඞ: (lambda ඞඞc: (lambda input: ((lambda ඞඞඞඞඞඞ: ((lambda ඞඞඞඞඞඞ: ((lambda ඞඞn: (lambda ඞඞඞඞඞඞ: ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))(((ඞඞඞඞඞඞ[:1:] + ඞඞඞඞඞඞ[2::]) + ඞඞc[0])))((ඞඞn + (((ඞඞc[:-1:] + ඞඞඞඞඞඞ[1]) + ඞඞc[-1]) + ඞඞඞඞඞඞ[1]))) if (ඞCඞඞ == 5) else ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))))((ඞඞc + ඞඞඞඞඞඞ)) if (ඞCඞඞ == 4) else ((lambda ඞඞn: (lambda ඞඞඞඞඞඞ: ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))(((ඞඞඞඞඞඞ[:1:] + ඞඞඞඞඞඞ[2::]) + ඞඞc[0])))((ඞඞn + (((ඞඞc[:-1:] + ඞඞඞඞඞඞ[1]) + ඞඞc[-1]) + ඞඞඞඞඞඞ[1]))) if (ඞCඞඞ == 5) else ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))))((ඞඞඞඞඞඞ + (ඞඞc * 2))) if (ඞCඞඞ == 0) else ((lambda ඞඞn: ((lambda ඞඞඞඞඞඞ: ((lambda ඞඞn: (lambda ඞඞඞඞඞඞ: ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))(((ඞඞඞඞඞඞ[:1:] + ඞඞඞඞඞඞ[2::]) + ඞඞc[0])))((ඞඞn + (((ඞඞc[:-1:] + ඞඞඞඞඞඞ[1]) + ඞඞc[-1]) + ඞඞඞඞඞඞ[1]))) if (ඞCඞඞ == 5) else ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))))((ඞඞc + ඞඞඞඞඞඞ)) if (ඞCඞඞ == 4) else ((lambda ඞඞn: (lambda ඞඞඞඞඞඞ: ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))(((ඞඞඞඞඞඞ[:1:] + ඞඞඞඞඞඞ[2::]) + ඞඞc[0])))((ඞඞn + (((ඞඞc[:-1:] + ඞඞඞඞඞඞ[1]) + ඞඞc[-1]) + ඞඞඞඞඞඞ[1]))) if (ඞCඞඞ == 5) else ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))))((ඞඞn + ඞඞc)) if (ඞCඞඞ == 2) else ((lambda ඞඞඞඞඞඞ: ((lambda ඞඞn: (lambda ඞඞඞඞඞඞ: ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))(((ඞඞඞඞඞඞ[:1:] + ඞඞඞඞඞඞ[2::]) + ඞඞc[0])))((ඞඞn + (((ඞඞc[:-1:] + ඞඞඞඞඞඞ[1]) + ඞඞc[-1]) + ඞඞඞඞඞඞ[1]))) if (ඞCඞඞ == 5) else ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))))((ඞඞc + ඞඞඞඞඞඞ)) if (ඞCඞඞ == 4) else ((lambda ඞඞn: (lambda ඞඞඞඞඞඞ: ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))(((ඞඞඞඞඞඞ[:1:] + ඞඞඞඞඞඞ[2::]) + ඞඞc[0])))((ඞඞn + (((ඞඞc[:-1:] + ඞඞඞඞඞඞ[1]) + ඞඞc[-1]) + ඞඞඞඞඞඞ[1]))) if (ඞCඞඞ == 5) else ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))))))(type("input", (), {})))(''))((ඞCඞඞ + 1)))(_targ1)) if (_targ1 is not _term1) else console.log(ඞඞඞඞඞඞ)))))(_targ1 if "_targ1" in dir() else None, print if "print" in dir() else None, ඞ3 if "ඞ3" in dir() else None, ඞCඞඞ if "ඞCඞඞ" in dir() else None, ඞඞc if "ඞඞc" in dir() else None, ඞඞn if "ඞඞn" in dir() else None, ඞඞඞඞඞඞ if "ඞඞඞඞඞඞ" in dir() else None))(next(_items1, _term1)))([], iter(range)))(-(-(-((0 ** 0))))))(type("console", (), {'log': lambda: ඞඞඞ(*sys)})))('')][-1] if (ඞඞඞඞඞඞ := '') else (lambda ඞඞn: (lambda console: (lambda ඞCඞඞ: (lambda _term1, _items1: (lambda _targ1: (lambda _targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ: (lambda _loop1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(_Y(lambda _loop1: (lambda _targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ: ((lambda print: (lambda ඞCඞඞ: (lambda ඞඞc: (lambda input: ((lambda ඞඞඞඞඞඞ: ((lambda ඞඞඞඞඞඞ: ((lambda ඞඞn: (lambda ඞඞඞඞඞඞ: ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))(((ඞඞඞඞඞඞ[:1:] + ඞඞඞඞඞඞ[2::]) + ඞඞc[0])))((ඞඞn + (((ඞඞc[:-1:] + ඞඞඞඞඞඞ[1]) + ඞඞc[-1]) + ඞඞඞඞඞඞ[1]))) if (ඞCඞඞ == 5) else ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))))((ඞඞc + ඞඞඞඞඞඞ)) if (ඞCඞඞ == 4) else ((lambda ඞඞn: (lambda ඞඞඞඞඞඞ: ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))(((ඞඞඞඞඞඞ[:1:] + ඞඞඞඞඞඞ[2::]) + ඞඞc[0])))((ඞඞn + (((ඞඞc[:-1:] + ඞඞඞඞඞඞ[1]) + ඞඞc[-1]) + ඞඞඞඞඞඞ[1]))) if (ඞCඞඞ == 5) else ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))))((ඞඞඞඞඞඞ + (ඞඞc * 2))) if (ඞCඞඞ == 0) else ((lambda ඞඞn: ((lambda ඞඞඞඞඞඞ: ((lambda ඞඞn: (lambda ඞඞඞඞඞඞ: ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))(((ඞඞඞඞඞඞ[:1:] + ඞඞඞඞඞඞ[2::]) + ඞඞc[0])))((ඞඞn + (((ඞඞc[:-1:] + ඞඞඞඞඞඞ[1]) + ඞඞc[-1]) + ඞඞඞඞඞඞ[1]))) if (ඞCඞඞ == 5) else ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))))((ඞඞc + ඞඞඞඞඞඞ)) if (ඞCඞඞ == 4) else ((lambda ඞඞn: (lambda ඞඞඞඞඞඞ: ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))(((ඞඞඞඞඞඞ[:1:] + ඞඞඞඞඞඞ[2::]) + ඞඞc[0])))((ඞඞn + (((ඞඞc[:-1:] + ඞඞඞඞඞඞ[1]) + ඞඞc[-1]) + ඞඞඞඞඞඞ[1]))) if (ඞCඞඞ == 5) else ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))))((ඞඞn + ඞඞc)) if (ඞCඞඞ == 2) else ((lambda ඞඞඞඞඞඞ: ((lambda ඞඞn: (lambda ඞඞඞඞඞඞ: ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))(((ඞඞඞඞඞඞ[:1:] + ඞඞඞඞඞඞ[2::]) + ඞඞc[0])))((ඞඞn + (((ඞඞc[:-1:] + ඞඞඞඞඞඞ[1]) + ඞඞc[-1]) + ඞඞඞඞඞඞ[1]))) if (ඞCඞඞ == 5) else ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))))((ඞඞc + ඞඞඞඞඞඞ)) if (ඞCඞඞ == 4) else ((lambda ඞඞn: (lambda ඞඞඞඞඞඞ: ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))(((ඞඞඞඞඞඞ[:1:] + ඞඞඞඞඞඞ[2::]) + ඞඞc[0])))((ඞඞn + (((ඞඞc[:-1:] + ඞඞඞඞඞඞ[1]) + ඞඞc[-1]) + ඞඞඞඞඞඞ[1]))) if (ඞCඞඞ == 5) else ((lambda ඞඞඞඞඞඞ: (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1)))((((ඞඞc[0] + ඞඞඞඞඞඞ) + ඞඞc[1]) + ඞඞn)) if (ඞCඞඞ == 6) else (lambda _targ1: _loop1(_targ1, print, ඞ3, ඞCඞඞ, ඞඞc, ඞඞn, ඞඞඞඞඞඞ))(next(_items1, _term1))))))))(type("input", (), {})))(''))((ඞCඞඞ + 1)))(_targ1)) if (_targ1 is not _term1) else console.log(ඞඞඞඞඞඞ)))))(_targ1 if "_targ1" in dir() else None, print if "print" in dir() else None, ඞ3 if "ඞ3" in dir() else None, ඞCඞඞ if "ඞCඞඞ" in dir() else None, ඞඞc if "ඞඞc" in dir() else None, ඞඞn if "ඞඞn" in dir() else None, ඞඞඞඞඞඞ if "ඞඞඞඞඞඞ" in dir() else None))(next(_items1, _term1)))([], iter(range)))(-(-(-((0 ** 0))))))(type("console", (), {'log': lambda: ඞඞඞ(*sys)})))(''))][-1]][-1]][-1])(lambda ඞa, ඞb: ඞa.__getattribute__('pop')(ඞb)))([list.index][0]))([ඞඞඞ, ඞඞඞඞ.__class__][1]))([range[(20 % 7)]][0]))(range[(8 % -(-7))]))(['l', print, 1, 'W', 3, 'e!', staticmethod]))((lambda f: (lambda x: x(x))(lambda y: f(lambda *args: y(y)(*args)))))

wdym? It looks amazing

Didn’t make me angry. It made me laugh

Mad can also mean insane. For example, “he’s gone mad” generally means he’s crazy not he’s angry. This program was wonderfully written to make people insane.

It did not make me mad… It made me have brain dmg

At least your brain cells didn’t get a speeding ticket while flying out of your brain