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Half jokingly half serious : Why can't I do ++i++ in C-like languages, specifically in C#?

I'd expect it to increment the value, use that in my expression, then increment again.

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Even if it did work, you shouldn't because you shouldn't hate life :(. Seeing ++i++ would make me sad in any context, regardless of the explanation. – Malaxeur Oct 2 '09 at 18:25
@zvolkov: there wasn't... John created this tag just for your question ;) – Thomas Levesque Oct 2 '09 at 18:29
I'm trying to start a movement. ;-) – John MacIntyre Oct 2 '09 at 18:31
while we're at it, how about i++++ and i++++++ and i++++++++... – Jon B Oct 2 '09 at 18:41
Looks like analog-literals time eh :) – Johannes Schaub - litb Oct 2 '09 at 20:13
up vote 52 down vote accepted

Short answer: i++ is not an "lvalue", so can't be the subject of an assignment.

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post-increment has precedence over pre-increment; you want to say that i++ isn't an lvalue, not ++i. (Though it doesn't work either way) – Stephen Canon Oct 2 '09 at 18:32
++i is an lvalue, so (++i)++ would be valid but for the fact that it writes to i twice without an intervening sequence point. The problem is that the grammar specifies that ++i++ is equivalent to` ++(i++)`. – Charles Bailey Oct 2 '09 at 18:41
@Charles Bailey: ++i is an lvalue in C and C++, but IIRC not in C#. – Steve Jessop Oct 2 '09 at 18:51
++i is not an lvalue in C. Try assigning to it and see what your compiler says. – Stephen Canon Oct 2 '09 at 18:54
Good point, well made. What I was trying to highlight, though, was more along the lines of "the question says specifically C#", rather than "I can't remember the awkward differences between C and C++". – Steve Jessop Oct 2 '09 at 19:00

Though the short answer "it's not an lvalue" is correct, that's perhaps just begging the question. Why isn't it an lvalue? Or, as we say in C#, a variable.

The reason is because you cannot have your cake and eat it too. Work it out logically:

First off, the meaning of a ++ operator in C#, whether postfix or prefix, is "take the value of this variable, increment the value, assign the new value to the variable, and produce a value as a result". The value produced as the result is either the original value or the incremented value, depending on whether it was a postfix or a prefix. But either way, you produce a value.

Second, the value of a variable is always the current contents of that variable. (Modulo certain bizarre threading scenarios that would take us far afield.)

I hope you agree that these are perfectly sensible rules.

Now it should be clear why the result of i++ cannot be a variable, but in case it isn't, let me make it clear:

Suppose i is 10. The meaning of i++ should be "get the value of i — 10 — increment it — 11 — store it — i is now 11 — and give the original value as the result — 10". So when you say print(i++) it should print 10, and 11 should be stored in i.

Now suppose the meaning of i++ is to return the variable, not the value. You say print(i++) and what happens? You get the value of i — 10 — increment it — 11 — store it — i is now 11 — and give the variable back as a result. What's the current value of the variable? 11! Which is exactly what you DON'T want to print.

In short, if i++ returned a variable then it would be doing exactly the opposite of the intended meaning of the operator! Your proposal is logically inconsistent, which is why no language does it that way.

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Actually the pre increment is supposed to increment the value and return a reference to the original object not a value. – Loki Astari Oct 2 '09 at 18:53
Nice explanation – peacedog Oct 2 '09 at 18:54
Martin, my explanation is both precise and accurate; I'm talking about the C# semantics, not the C or C++ semantics, because that is what the original poster specifically asked for. I'll make that more clear in the text. – Eric Lippert Oct 2 '09 at 19:37
@Martin York: Yes, and that's why (in those languages) (++i)++ is still valid. However, ++i++ is actually equivalent to ++(i++), as postincrement has higher precedence than preincrement. – SingleNegationElimination Oct 3 '09 at 1:06

Because you care about a next programmer maintaining (or trying to re-write)your code, long after you're fired for defying popular conventions.

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This is why it's "immoral", but in fact it's illegal as well as immoral. – Simon Nickerson Oct 2 '09 at 18:26
unfortunately lots of c++ (hopefully to be fixed in the next standard) are immoral and politically incorrect to use, yet legal... – vehomzzz Oct 2 '09 at 18:28
that's a comment relating to the design of a program, more than relating to the design of a language... – DanM Oct 2 '09 at 19:44

I tested (++i,i++) as a workaround:

#include <stdio.h> 

int main(){
  int i=0;

  printf(" i:         %i\n", i         );
  printf(" (++i,i++): %i\n", (++i,i++) );
  printf(" i:         %i\n", i         );


i:         0
(++i,i++): 1
i:         2
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My eyes, my eyes! – RJFalconer Apr 17 '10 at 10:21
+1 for workaround that maintains symmetry. – cobbal May 24 '11 at 17:19
Looks like some kind of emoticon. The Spruce Goose flying upside-down? – Justin Morgan May 24 '11 at 21:44

Because the result of i++ isn't an lvalue.

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++i would be evaluated first. – Will Bickford Oct 2 '09 at 18:31
post-increment has precedence, actually. – Stephen Canon Oct 2 '09 at 18:33

I believe that the increment(or decrement) operator needs an lvalue to assign to. However ++i is not an lvalue, it's an expression. Someone better versed in compilers might be able to clarify if there is any technical reason for this constraint.

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The type of ++i is an lvalue in C. – Charles Bailey Oct 2 '09 at 18:42
Could you clarify this a bit? I tried to compile "++i = 4;" and get an error saying that an lvalue is required on the left hand of the operand. Maybe my misunderstanding is in the definition of lvalue? I understood it to be something that could be assigned to. – nall Oct 2 '09 at 18:56
Section 5.3.2 of the standard, paragraph 1: "The value is the new value of the operand; it is an lvalue." (This is of course the paragraph on "prefix ++".) Of course, "++i = 4;" is also an attempt to change the value of i twice without an intervening sequence point, and therefore undefined behavior. "f(++i)" with "int f(int &)" would involve a sequence point, and should be legal. – David Thornley Oct 2 '09 at 19:04
Got it. Thanks much! – nall Oct 2 '09 at 19:07
.. Unless of course your answer is about C, in which case ++i is in fact not an lvalue. In the C99 draft n1256, you find this: "An assignment expression has the value of the left operand after the assignment, but is not an lvalue", while it says that ++i is equivalent to i+=1. In addition, any lvalue is automatically converted to a non-lvalue (rvalue) in most contexts in C. – Johannes Schaub - litb Oct 2 '09 at 20:06

From section 7.5.9 of the C# 3.0 specification:

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. If the operand of a postfix increment or decrement operation is a property or indexer access, the property or indexer must have both a get and a set accessor. If this is not the case, a compile-time error occurs.

Additionally, the post-increment expression (i++) would be evaluated first because it has a higher precedence than the pre-increment (++i) operator.

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This is written more concisely as 'Its and lvalue'.

At a compiler level:

Because a variable can not have its value changed more than once between two sequence points.
Even though the post increment happens after the current expression it is still within the same two sequence points as the expression as a whole. Between two sequence points the compiler is allowed to do a whole host of nasty optimization tricks which potentially render multiple assignment as (undefined or unspecified or words to that effect) behavior.

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