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My view is to always use ++ and -- by themselves on a single line, as in: i++; array[i] = foo; instead of array[++i] = foo; Anything beyond that can be confusing to some programmers and is just not worth it in my view. For loops are an exception, as the use of the increment operator is idiomatic and thus always clear.


I'm frankly confused by that advice. Part of me wonders if it has more to do with a lack of experience (perceived or actual) with javascript coders. I can see how someone just "hacking" away at some sample code could make an innocent mistake with ++ and --, but I don't see why an experienced professional would avoid them.


There is a history in C of doing things like: while (*a++ = *b++); to copy a string, perhaps this is the source of the excessive trickery he is referring to. And there's always the question of what ++i = i++; or i = i++ + ++i; actually do. It's defined in some languages, and in other's there's no guarantee what will happen. Those examples ...


If you read JavaScript The Good Parts, you'll see that Crockford's replacement for i++ in a for loop is i+=1 (not i=i+1). That's pretty clean and readable, and is less likely to morph into something "tricky." Crockford made disallowing autoincrement and autodecrement an option in jsLint. You choose whether to follow the advice or not. My own personal rule ...


In the general case, the post increment will result in a copy where a pre-increment will not. Of course this will be optimized away in a large number of cases and in the cases where it isn't the copy operation will be negligible (ie., for built in types). Here's a small example that show the potential inefficiency of post-increment. #include ...

19 class Date { //... public: Date& operator++(); //prefix Date& operator--(); //prefix Date operator++(int unused); //postfix Date operator--(int unused); //postfix };


Consider the following code int a[10]; a[0] = 0; a[1] = 0; a[2] = 0; a[3] = 0; int i = 0; a[i++] = i++; a[i++] = i++; a[i++] = i++; since i++ gets evaluated twice the output is (from vs2005 debugger) [0] 0 int [1] 0 int [2] 2 int [3] 0 int [4] 4 int Now consider the following code : int a[10]; a[0] = 0; a[1] = 0; a[2] = 0; a[3] = 0; ...


The "pre" and "post" nature of increment and decrement operators can tend to be confusing for those who are not familiar with them; that's one way in which they can be tricky.


-- returns a value, not a variable but the operator at ++ expects it to be a variable, that's why it doesn't work.


After the end of while (*s++);, s points to the character after the null terminator. Take that into account in the code that follows.


You can only have one postfix operation per statement. But you can do what you want (sorta) by using a do block, e.g. do { $foo++ if $condition } for ( 1..10 ); Personally, I find this style extremely confusing and difficult to read. I'd avoid it, if I were you. If you're going to all that trouble, you might as well say for( 1..10 ) { $foo++ if ...


Write a version of the same operator overload, but give it a parameter of type int. You don't have to do anything with that parameter's value. If you're interested in some history of how this syntax was arrived out, there's a snippet of it here.


I've been watching Douglas Crockford's video on this and his explanation for not using increment and decrement is that It has been used in the past in other languages to break the bounds of arrays and cause all manners of badness and That it is more confusing and inexperienced JS developers don't know exactly what it does. Firstly arrays in JavaScript ...


In my view, "Explicit is always better than implicit." Because at some point, you may got confused with this increments statement y+ = x++ + ++y. A good programmer always makes his or her code more readable.


First, let's look at operand evaluation order. This isn't defined for many operators, but it is defined for the list operator. It's documented to evaluate its operands in left-to-right order[1]. That means that printf's arguments are evaluated in the following order: "%d %d %d %d" $a ++$a $a++ $a The key lies in knowing that $a doesn't place a copy of ...


The pre- and post-increment are two distinct operators, and require separate overloads. C++ doesn't allow overloading solely on return type, so having different return types as in your example wouldn't be sufficient to disambiguate the two methods. The dummy argument is the mechanism that the designer of C++ chose for the disambiguation.


Postfix has an int argument in the signature. Class& operator++(); //Prefix Class operator++(int); //Postfix


The t stands for "type" or "typedef." You'll see a lot of POSIX headers (and others) with time_t, size_t, and others. These which hold (not necessarily defined) specific bit-sizes based on the operating system and machine architecture.


The postfix operator takes a int as an argument to distinguish it from the prefix operator. Postfix: int operator--(int) { } Prefix: int operator--() { }


For overloading postfix operator you need to specify a dummy int argument in the function signature i.e. there should also be a operator--(int). What you have defined is a prefix decrement operator. See this FAQ for more details.


Check your precedence table again. I believe you may be getting confused with the unary address operator & and the binary bitwise-and operator &. See: With this interpretation, you increment a before applying the bitwise-and.


From the C# specification "7.6.9 Postfix increment and decrement operators": The operand of a postfix increment or decrement operation must be an expression classified as a variable, a property access, or an indexer access. The result of the operation is a value of the same type as the operand. I think this answers your question. It's also the reason ...


You are free to give operator++ any return type you like, so there's not way to distinguish postfix and prefix by that. So the compiler needs some kind of clue. OTOH, I don't know why this couldn't had been done in syntax only: //prefix int& ++operator (); //postfix int& operator++ (); After all, mimicking usage in declarations has tradition ...


The problem is that while (*s++) ; Always Increments s, even when s is zero (*s is false) while (*s) s++; only increments s when *s is nonzero so the first one will leave s pointing to first character after the first \0, while the second one will leave s pointing to the first \0.


System.DateTime.AddDays Save yourself an epic, date-based headache.


I think programmers should be competent in the language they are using; use it clearly; and use it well. I don't think they should artificially cripple the language they are using. I speak from experience. I once worked literally next door to a Cobol shop where they didn't use ELSE 'because it was too complicated'. Reductio ad absurdam.


(++x)++ increments x by two and returns the value "in the middle" Why not (x += 2) - 1 or (++x, x++)? Both seem to be clearer. For scalars, both are well-defined also in C++03, as opposed to your proposed expression. (++x)-- is essentially equivalent to x+1 but completely avoids having to call operator+, which can be quite useful sometimes. ...


White space is handled by default. There is also the handy oneOf: from pyparsing import * integer = Word(nums) op = oneOf('* + - / ^') expr = integer + integer + op parsed = expr.parseString("3 4 *") print parsed

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