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Today I came a cross an article by Eric Lippert where he was trying to clear the myth between the operators precedence and the order of evaluation. At the end there were two code snippets that got me confused, here is the first snippet:

      int[] arr = {0};
      int value = arr[arr[0]++];

Now when I think about the value of the variable value, I simply calculate it to be one. Here's how I thought it's working.

  1. First declare arr as an array of int with one item inside of it; this item's value is 0.
  2. Second get the value of arr[0] --0 in this case.
  3. Third get the value of arr[the value of step 2] (which is still 0) --gets arr[0] again --still 0.
  4. Fourth assign the value of step 3 (0) to the variable value. --value = 0 now
  5. Add to the value of step 2 1 --Now arr[0] = 1.

Apparently this is wrong. I tried to search the c# specs for some explicit statement about when the increment is actually happening, but didn't find any.
The second snippet is from a comment of Eric's blog post on the topic:

 int[] data = { 11, 22, 33 }; 
 int i = 1;
 data[i++] = data[i] + 5;

Now here's how I think this program will execute --after declaring the array and assigning 1 to i. [plz bear with me]

  1. Get data[i] --1
  2. Add to the value of step 1 the value 5 --6
  3. Assign to data[i] (which is still 1) the value of step 2 --data[i] = 6
  4. Increment i -- i = 2

According to my understanding, this array now should contain the values {11, 27, 33}. However, when I looped to print the array values I got: {11, 38, 33}. This means that the post increment happened before dereferencing the array!
How come? Isn't this post increment supposed to be post? i.e. happen after everything else.
What am I missing guys?

share|improve this question
Your fifth step is not correct anyway. "Add to the value of step 2 1 --Now arr[0] = 1." The value that is taken/copied from the array is incremented with one, but the value in the array is not touched. So the statement arr[0] = 1 is false. The copied value from arr[0] = 1 at step 5. – Gertjan Aug 11 '09 at 13:24
Well I just ran the code and I got the value 0 for the 1st answer and {11,27,33} as the second...Is this thing compiler specific? – bubblegum Aug 11 '09 at 14:37
@Swabha you sure you're using C#? – Galilyou Aug 12 '09 at 11:05
up vote 16 down vote accepted

The postincrement operation occurs as part of evaluating the overall expression. It's a side effect which occurs after the value is evaluated but before any other expressions are evaluated.

In other words, for any expression E, E++ (if legal) represents something like (pseudo-code):

T tmp = E;
E += 1;
return tmp;

That's all part of evaluating E++, before anything else is evaluated.

See section 7.5.9 of the C# 3.0 spec for more details.

Additionally, for assignment operations where the LHS is classified as a variable (as in this case), the LHS is evaluated before the RHS is evaluated.

So in your example:

int[] data = { 11, 22, 33 }; 
int i = 1;
data[i++] = data[i] + 5;

is equivalent to:

int[] data = { 11, 22, 33 }; 
int i = 1;
// Work out what the LHS is going to mean...
int index = i;
// We're going to assign to data[index], i.e. data[1]. Now i=2.

// Now evaluate the RHS
int rhs = data[i] + 5; // rhs = data[2] + 5 == 38

// Now assign:
data[index] = rhs;

The relevant bit of the specification for this is section 7.16.1 (C# 3.0 spec).

share|improve this answer
That, and expressions (including assignments) are evaluated left to right except for when operator precedence dictates otherwise. So data[i++] (the left hand side of the assignment) is evaluated before data[i] on the right hand side. – LBushkin Aug 11 '09 at 13:22
@LBushkin: I think I was editing for exactly that purpose while you were commenting :) – Jon Skeet Aug 11 '09 at 13:24
@LBushkin Wrong. Microsoft explicitly says that both the assignment (=) and the ternary (?:) operators are resolved from right to left. – Leahn Novash Aug 11 '09 at 13:26
"The postincrement operation occurs immediately after the expression it postincrements is evaluated" I'd like to put it this way: The postincrement expression has a value like all expressions. It also has a side effect (unlike most trivial expressions). You can think of it as something like a method call. The value a method returns is totally independent from the side effects it might have. Basically, at the time of evaluation, a postincrement operation performs a side effect while returning the original value of the operand as its value. – Mehrdad Afshari Aug 11 '09 at 13:33
@Novash: How could ternary operators be resolved from right to left? The left-most expression has to be solved before deciding which of the other two expressions will be resolved (the other expression is not even executed). – jpbochi Aug 11 '09 at 13:36

For the first snippet, the sequence is:

  1. Declare arr as you described:
  2. Retrieve the value of arr[0], which is 0
  3. Increment the value of arr[0] to 1.
  4. Retrieve the value of arr[(result of #2)] which is arr[0], which (per #3) is 1.
  5. Store that result in value.
  6. value = 1

For the second snippet, the evaluation is still left-to-right.

  1. Where are we storing the result? In data[i++], which is data[1], but now i = 2
  2. What are we adding? data[i] + 5, which is now data[2] + 5, which is 38.

The missing piece is that "post" doesn't mean "after EVERYTHING else." It just means "immediately after I retrieve the current value of that variable." A post increment happening "in the middle of" a line of code is completely normal.

share|improve this answer
data[i++] // => data[1], then i is incremented to 2

data[1] = data[2] + 5 // => 33 + 5
share|improve this answer
I disagree with you. The implementation says the assignment operator is lowest priority and resolved from right to left. The guy is correct on his assumptions, according to the language specs. msdn.microsoft.com/en-us/library/aa691323(VS.71).aspx – Leahn Novash Aug 11 '09 at 13:21
@Leahn Novash: You are again confusing associativity with evaluation order. "a = b = c" is right associative "a = (b = c)", but that says NOTHING about the evaluation order. The evaluation order in C# is ALWAYS left to right. – Daniel Aug 11 '09 at 13:25
I've read the specifications again more carefully. I stand corrected. – Leahn Novash Aug 11 '09 at 13:46

I would expect the post-increment operator to increment the variable after its value is used. In this case, the variable is incremented before the second reference to the variable.

If it would not be so, you could write

data[i++] = data[i++] + data[i++] + data[i++] + 5

If it would be like you say, then you could remove the increment operator because it doesn't do actually anything, in the instruction I reported.

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You have to think of assignments in three steps:

  1. Evaluate left hand side (=get address where the value should be stored)
  2. Evaluate right hand side
  3. Assign the value from step 2 to the memory location from step 1.

If you have something like

A().B = C()

Then A() will run first, then C() will run, and then the property setter B will run.

Essentially, you have to think of your statement as

StoreInArray(data, i++, data[i] + 5);
share|improve this answer

The cause might be that some compilers optimize i++ to be ++i. Most of the time, the end result is the same, but it seems to me to be one of those rare occasions when the compiler is wrong.

I have no access to Visual Studio right now to confirm this, but try disabling code optimization and see if the results will stay the same.

share|improve this answer
i++ and ++i are different and are used in different ways. Any compiler which converted i++ to ++i would invite the anger of many a developer. – NickAldwin Aug 11 '09 at 13:24
Fortunately, C# defines its behavior rather better than this. – Jon Skeet Aug 11 '09 at 13:24
I agree that compiler, gitter, or processor optimizations might take place, but this will happen if only the results of the optimizations are indistinguishable from the desired result on a single-threaded application: blogs.msdn.com/ericlippert/archive/2009/08/10/… – Galilyou Aug 11 '09 at 13:25

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