# Two Equal Signs in One Line?

Could someone please explain what this does and how it is legal C code? I found this line in this code: http://code.google.com/p/compression-code/downloads/list, which is a C implementation of the Vitter algorithm for Adaptive Huffman Coding

``````ArcChar = ArcBit = 0;
``````

From the function:

``````void arc_put1 (unsigned bit)
{
ArcChar <<= 1;

if( bit )
ArcChar |= 1;

if( ++ArcBit < 8 )
return;

putc (ArcChar, Out);
ArcChar = ArcBit = 0;
}
``````

ArcChar is an `int` and ArcBit is an `unsigned char`

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The value of the expression `(a = b)` is `b`, so you can chain them this way. They are also right-associative, so it all works out.

Essentially

``````ArcChar = ArcBit = 0;
``````

is (approximately1) the same as

``````ArcBit = 0;
ArcChar = 0;
``````

since the value of the first assigment is the assigned value, thus `0`.

Regarding the types, even though `ArcBit` is an `unsigned char` the result of the assignment will get widened to `int`.

1   It's not exactly the same, though, as R.. points out in a comment below.

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Thanks for explaining the data-type issue. –  user807566 Aug 30 '11 at 13:52
It's not quite the same as the two-statement version, which has a sequence point between the two assignments. This can make a difference if the two lvalues are `*ptr1` and `*ptr2` and they happen to point to the same place (in which the one-statement version would have UB) or if they're both `volatile` and you care about the order the assignments happen. –  R.. Aug 30 '11 at 17:55
Ah, damn. And now I can't delete :-/ –  Јοеу Aug 30 '11 at 19:00

That is just chaining of the assignment operator. The standard says in `6.5.16 Assignment operators`:

An assignment operator shall have a modifiable lvalue as its left operand. An assignment operator stores a value in the object designated by the left operand. An assignment expression has the value of the left operand after the assignment, but is not an lvalue. The type of an assignment expression is the type of the left operand unless the left operand has qualified type, in which case it is the unqualified version of the type of the left operand. The side effect of updating the stored value of the left operand shall occur between the previous and the next sequence point.

So you may do something like:

``````a=b=2; // ok
``````

But not this:

``````a=2=b; // error
``````
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It assigns `ArcBit` to `0`, then assigns `ArcChar` to the value of the expression `ArcBit = 0` (ie. `0`)

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An assignment operation (a = b) itself returns an rvalue, which can be further assigned to another lvalue; c = (a = b). In the end, both a and c will have the value of b.

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Interesting. I didn't realize that it returned a value. Thanks. –  user807566 Aug 30 '11 at 13:46

It sets both variables to zero.

``````int i, j;
i = j = 0;
``````

The same as writing

``````int i, j;
j = 0;
i = j;
``````

or writing

``````int i, j;
i = 0;
j = 0;
``````
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In some languages, assignments are statements: they cause some action to take place, but they don't have a value themselves. For example, in Python1 it's forbidden to write

``````x = (y = 10) + 5
``````

because the assignment `y = 10` can't be used where a value is expected.

However, C is one of many languages where assignments are expressions: they produce a value, as well as any other effects they might have. Their value is the value that is being assigned. The above line of code would be legal in C.

The use of two equals signs on one line is interpreted like this:

``````ArcChar = (ArcBit = 0);
``````

That is: `ArcChar` is beging assigned the value of `ArcBit = 0`, which is `0`, so both variables end up being `0`.

1 `x = y = 0` is actually legal in Python, but it's considered a special-case of the assignment statement, and trying to do anything more complicated with assignments will fail.

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Good explanation. Thank you. –  user807566 Aug 30 '11 at 13:48
``````ArcChar = ArcBit = 0;
``````

The assignment is left-associative, so it's equivalent to:

``````ArcChar = (ArcBit = 0);
``````

The result of `ArcBit = 0` is the newly-assined value, that is - `0`, so it makes sense to assign that `0` to `ArcChar`

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You can do this: http://en.wikibooks.org/wiki/C_Programming/Variables

Moreover,

`[a int] = 0;` is possible.

`[a char] = 0;` is possible too.

arcbit and arcchar equals 0.

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