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What is the difference between

char Str[32] = "\0";


char Str[32] = "";
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up vote 19 down vote accepted

Since you already declared the sizes, the two declarations are exactly equal. However, if you do not specify the sizes, you can see that the first declaration makes a larger string:

char a[] = "a\0";
char b[] = "a";

printf("%i %i\n", sizeof(a), sizeof(b));


3 2

This is because a ends with two nulls (the explicit one and the implicit one) while b ends only with the implicit one.

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Well, assuming the two cases are as follows (to avoid compiler errors):

char str1[32] = "\0";
char str2[32] = "";

As people have stated, str1 is initialized with two null characters:

char str1[32] = {'\0','\0'};
char str2[32] = {'\0'};

However, according to both the C and C++ standard, if part of an array is initialized, then remaining elements of the array are default initialized. For a character array, the remaining characters are all zero initialized (i.e. null characters), so the arrays are really initialized as:

char str1[32] = {'\0','\0','\0','\0','\0','\0','\0','\0',
char str2[32] = {'\0','\0','\0','\0','\0','\0','\0','\0',

So, in the end, there really is no difference between the two.

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Important observation! – jfm3 Sep 16 '08 at 21:36
This is a great answer. This made me also understand why char a[2]="be" would not be wise. – Pithikos Nov 7 '11 at 17:21
Are the elements also initialized to '\0' when allocating memory to a string through malloc? – Lokesh Oct 9 '14 at 3:31
@Lokesh: No — the memory allocated by malloc() is not initialized to any determinate value. It may be zeros when the memory is first allocated, but if it is modified, freed and then allocated a second time, the newly allocated space will (usually) have whatever values happened to be there when it was freed, unless malloc() used some of the space for its internal bookkeeping, etc. – Jonathan Leffler Oct 9 '14 at 14:53

As others have pointed out, "" implies one terminating '\0' character, so "\0" actually initializes the array with two null characters.

Some other answerers have implied that this is "the same", but that isn't quite right. There may be no practical difference -- as long the only way the array is used is to reference it as a C string beginning with the first character. But note that they do indeed result in two different memory initalizations, in particular they differ in whether Str[1] is definitely zero, or is uninitialized (and could be anything, depending on compiler, OS, and other random factors). There are some uses of the array (perhaps not useful, but still) that would have different behaviors.

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In the context of the question, where the size of the array is specified, the results are identical — letter 'a' followed by 31 null bytes, '\0'. Only in the context of an unsized array is there a difference. – Jonathan Leffler Oct 9 '14 at 4:02

Unless I'm mistaken, the first will initialize 2 chars to 0 (the '\0' and the terminator that's always there, and leave the rest untouched, and the last will initialize only 1 char (the terminator).

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The trailing bytes of the array will be zero bytes too. – Jonathan Leffler Oct 9 '14 at 4:02

hmmm what about initializing with a pointer?

char *myString = "Here is a string";

although for traditional reasons I prefer using:

unsigned char *myString = "Here is a string"; 

In this case the null termination is embedded by the compiler. You can point the pointer to another string and you are independent pointing any length of string.

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There is no difference. They will both generate a compiler error on undeclared symbol. :P

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Presumably, you are referring to the original version of the question where the code was Str[32] = "\0"; and Str[32] = ""; and are asserting that these should generate a compiler error. It depends on the context, of course. If treated as 'definitions' (as they are in the revised version of the question), then the type (char) was missing. If you assume char *Str[33]; as a prior definition, then both are meaningful (but the strings pointed at are different) — but different from what the rest of the answers assume. This answer is not helpful because it doesn't explain why. – Jonathan Leffler Oct 9 '14 at 15:09

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