Inspired by a program described in K&R section 5.5:
void strcpy(char *s, char *t)
{
while(*s++ = *t++);
}
C program
if ('\0') { printf("\'\\0\' -> true \n"); }
else { printf("\'\\0\' -> false\n"); }
if ("\0") { printf("\"\\0\" -> true \n"); }
else { printf("\"\\0\" -> false\n"); }
prints
'\0' -> false
"\0" -> true
Why do '\0' and "\0" evaluate differently in C?
clang version 3.8.0
Recall how string literals work in C - "\0" is a character array containing two zero bytes (the one you asked for, and the implicit one at the end). When evaluated for the if test, it decays into a pointer to its first character. This pointer is not NULL, so it's considered true when used as a condition.
'\0' is the number zero, equivalent to just 0. It's an integer which is zero, so it's considered false when used as a condition.
"\0" is a pointer to a character array" does not suite well a 28++ voted answer, as it's simply wrong in two ways. "\0" s not a pointer, but an array, and if this array would be decayed to a pointer due to whatever reasons it wouldn't point to the array but to its 1st element.
char (*ptr)[] = &"test"; would be a pointer to the string literal while char* ptr = "test"; would be a pointer to the address of the first character of the string literal "test".
Apr 30, 2016 at 15:20
First of all, you need to keep in mind that in C,
NULL is false and non-NULL is true.'\0', as others have said, is the same as the integer literal 0 and hence is false (See first bullet point above to know why).
"\0" is a string literal that contains two \0 characters (One which you have explicitly added and the other, which is implicit and will be added by the compiler). The string literal will be stored somewhere in read-only memory. When you use "\0", it gets converted to a pointer to its first element†. This is commonly referred to as "array decay". (This is the reason why stuff like char* str = "string"; works).
So, you are effectively checking the address of the first character of the string literal. Since the address of the string literal will always be non-NULL, the if will always be true (See second bullet point above to know why).
†: This "decay" of arrays does not always happen. See Exception to array not decaying into a pointer?
unsigned and signed is relevant here. I mean unsigned or signed, char or int, all can represent 0.
Apr 30, 2016 at 15:15
'\0' is a number: 0, so it is evaluated as false (0 = false, !0 = true).
But "\0" is a pointer to a read-only section where the actual string is stored, the pointer is not NULL ergo it's true.
"\0" is not a pointer. It's a string literal, whose value is an array (which is implicitly converted to a pointer in most but not all contexts).
May 6, 2016 at 21:56
First, looking at the two conditions, '\0' is a constant of type integer, which denotes the null character C, which is the same as 0. While "\0" is a string literal, which contains 2 bytes, the one specified and the null terminator byte implicitly added. Being a string literal, the pointer cannot be NULL.
Second, in C, for the condition of if statement, everything non-zero is evaluated as true, and zero is evaluated as false.
According to this rule, it will be clear that '\0' is false, and "\0" evaluated as true.
NULL, that's why it is true.
NULL." -- It would be helpful to explain what pointer you're referring to (though other answers already cover that).
May 6, 2016 at 21:57
First of all, please note that the hexadecimal value of False is 0x00 and True is any other value than 0x00.
"\0" is a string with a character and Null Terminator '\0' at the end. So it is a character pointer, pointing to an array of 2 bytes: ['\0', '\0']. In this array, the first one is the character and the other one is the null terminator.
After compiling (without optimizing), this character pointer is temporarily assigned to an address in the memory pointing to the first byte of these two bytes. This address might be, for example, 0x18A6 in hexadecimal. So the compiler (most of them) actually writes these two values to the memory. Because a string is actually the address of the first byte of that string, our expression is interpreted as 0x18A6 != false . So, it is clear 0x18A6 != 0x00 is True.
'\0' is simply 0x00 in hexadecimal. 0x00 != 0x00 is False.
This answer is written for 8-bit data architecture with 16-bit addressing. I hope that helps.
'\0' is a null character which has the value of 0. It is used to terminate a string of characters. So it's consider false.
"\0" is a null or empty string. The only character in the string is the null character which terminates the string.So it's consider true.
"\0") holds two '\0' characters.
"\0" would evaluate to "true" is not obvious from your answer.
'\0' is a char that is equal to number zero. "\0" is a string and we usually add '\0' at the end of a string. Don't use '\0' or "\0" in a conditional statements because it's quite confusing.
The following usage is suggested:
if (array[0] != 0)
{
}
if (p != 0)
{
}
if (p != NULL)
{
}
'\0' used in conditionals, because it indicates that you are handling the 'thing' as a string, not an array of numbers.
Check out this with examples..
#include <stdio.h>
int main()
{
printf( "string value\n" );
//the integer zero
printf( "0.........%d\n" , 0 );
//the char zero, but chars are very small ints, so it is also an int
//it just has some special syntax and conventions to allow it to seem
//like a character, it's actual value is 48, this is based on the
//ASCII standard, which you can look up on Wikipedia
printf( "'0'.......%d\n" , '0' );
//because it is an integer, you can add it together,
//'0'+'0' is the same as 48+48 , so it's value is 96
printf( "'0'+'0'...%d\n" , '0'+'0' );
//the null terminator, this indicates that it is the end of the string
//this is one of the conventions strings use, as a string is just an array
//of characters (in C, at least), it uses this value to know where the array
//ends, that way you don't have to lug around another variable to track
//how long your string is. The actual integer value of '\0' is zero.
printf( "'\\0'......%d\n" , '\0' );
//as stated, a string is just an array of characters, and arrays are tracked
//by the memory location of their first index. This means that a string is
//actually a pointer to the memory address that stores the first element of
//the string. We should get some large number, a memory address
printf( "\"0\".......%d\n" , "0" );
//a string is just an array of characters, so lets access the character
//in position zero of the array. it should be the character zero, which
//has an integer value of 48
printf( "\"0\"[0]....%d\n" , "0"[0] );
//and the same thing for the empty string
printf( "\"\\0\"[0]...%d\n" , "\0"[0] ); //equal to '\0'
//we also said a string is just a pointer, so we should be able to access
//the value it is pointing to (the first index of the array of characters)
//by using pointers
printf( "*\"0\"......%d\n" , *"0" );
return 0;
}
The simple thing is ATLEAST 0 (int) and 0.0 (float or double) have FALSE value in C.
'\0' is integer 0.
"\0" is an array of characters. It does not matter that INSIDE the array how many Characters are there or what are those characters.
So, '\0' evaluates to 0 like 77-77 evaluates to 0. And 0 is false.
int x;
x = '\0';
printf("X has a value : %d");
Output:
x has a value : 0
And the code:
if(0){printf("true");}
else{printf("false");}
Output:
false
while((dest[i++] = source[i++]));. Not clearly remembered, I'll check tomorrow.