I notice that a pre-increment/decrement operator can be applied on a variable (like ++count). It compiles, but it does not actually change the value of the variable!
What is the behavior of the pre-increment/decrement operators (++/–) in Python?
Why does Python deviate from the behavior of these operators seen in C/C++?
1Best Answer
++ is not an operator. It is two + operators. The + operator is the identity operator, which does nothing. (Clarification: the + and - unary operators only work on numbers, but I presume that you wouldn’t expect a hypothetical ++ operator to work on strings.)
++count
Parses as
+(+count)
Which translates to
count
You have to use the slightly longer += operator to do what you want to do:
count += 1
I suspect the ++ and -- operators were left out for consistency and simplicity. I don’t know the exact argument Guido van Rossum gave for the decision, but I can imagine a few arguments:
- Simpler parsing. Technically, parsing
++countis ambiguous, as it could be+,+,count(two unary+operators) just as easily as it could be++,count(one unary++operator). It’s not a significant syntactic ambiguity, but it does exist. - Simpler language.
++is nothing more than a synonym for+= 1. It was a shorthand invented because C compilers were stupid and didn’t know how to optimizea += 1into theincinstruction most computers have. In this day of optimizing compilers and bytecode interpreted languages, adding operators to a language to allow programmers to optimize their code is usually frowned upon, especially in a language like Python that is designed to be consistent and readable. - Confusing side-effects. One common newbie error in languages with
++operators is mixing up the differences (both in precedence and in return value) between the pre- and post-increment/decrement operators, and Python likes to eliminate language “gotcha”-s. The precedence issues of pre-/post-increment in C are pretty hairy, and incredibly easy to mess up.
