int equiv (char, char);
int nmatches(char *str, char comp) {
char c;
int n=0;
while ((c = *str) != 0) {
if (equiv(c,comp) != 0) n++;
str++;
}
return (n);
}
What does "(c = *str) != 0" actually mean? Can someone please explain it to me or help give me the correct terms to search for an explanation myself?
This expression has two parts:
c = *str - this is a simple assignment of c from dereferencing a pointer,val != 0 - this is a comparison to zero.This works, because assignment is an expression, i.e. it has a value. The value of the assignment is the same as the value being assigned, in this case, the char pointed to by the pointer. So basically, you have a loop that traces a null-terminated string to the end, assigning each individual char to c as it goes.
Note that the != 0 part is redundant in C, because the control expression of a while loop is implicitly compared to zero:
while ((c = *str)) {
...
}
The second pair of parentheses is optional from the syntax perspective, but it's kept in assignments like that in order to indicate that the assignment is intentional. In other words, it tells the readers of your code that you really meant to write an assignment c = *str, and not a comparison c == *str, which is a lot more common inside loop control blocks. The second pair of parentheses also suppresses the compiler warning.
!= 0 is redundant, Yet so is this answer's alternative of the extra () redundant. Both serve the same purpose: to quiet compiler warnings and provide clarity that code is not c == *str. Depending on style and experience, one is more preferred than the other.
– chux - Reinstate Monica
Mar 29 '17 at 12:39
Confusingly,
while ((c = *str) != 0) {
is a tautology of the considerably easier to read
while (c = *str) {
This also has the effect of assigning the character at *str to c, and the loop will terminate once *str is \0; i.e. when the end of the string has been reached.
Assignments within conditionals such as the above can be confusing on first glance, (cf. the behaviour of the very different c == *str), but they are such a useful part of C and C++, you need to get used to them.
while ((c = *str)) in order to suppress any potential warnings about a mistaken ==.
– Blagovest Buyukliev
Mar 29 '17 at 11:28
-Wno-parentheses, of which I choose the former.
– Blagovest Buyukliev
Mar 29 '17 at 11:41
while ((c = *str) != '\0') to make it clear that I am looking for the null terminator. The line while (c = *str) is correct, but I will wonder whether you really meant == there. The added parentheses work like a “sic” and that is a good thing. Writing strcpy(char *d, char *s) { while (*d++ = *s++); } might be cool, but I wouldn't want to have that in my code.
– Martin Ueding
Mar 29 '17 at 18:14
(c = *str) is an expression and that has a value in itself. It is an assignment, the value of an assignment is the assigned value. So the value of (c = *str) is the value of *str.
The code basically checks, whether the value of *str, which just has been assigned to c is not 0. In case it isn't, then it will call the function equiv with that value.
Once the 0 is assigned, this is the end of the string. The function has to stop reading from the memory, which it does.
It's looping over every character in the string str, assigning them to c and then seeing if c is equal to 0 which would indicate the end of the string.
Although really the code should use '\0' as that is more obviously a NUL character.
We are going through the str in the while loop and extract every char symbol in it until it is equal to zero - the main rule of the end of char string.
Here is 'for' loop equivalent:
for (int i = 0; i < strlen(str); ++i )
std::cout << str[i];
It is just sloppily written code. The intention is to copy a character from the string str into c and then check if it was the null terminator.
The idiomatic way to check for the null terminator in C is an explicit check against '\0':
if(c != '\0')
This is so-called self-documenting code, since the de facto standard way to write the null terminator in C is by using the octal escape sequence \0.
Another mistake is to use assignment inside conditions. This was recognized as bad practice back in the 1980s and since then every compiler gives a warning against such code, "possibly incorrect assignment" or similar. This is bad practice because assignment includes a side effect and expressions with side effects should be kept as simple as possible. But it is also bad practice because it is easy to mix up = and ==.
The code could easily be rewritten as something more readable and safe:
c = *str;
while (c != '\0')
{
if(equiv(c, comp) != 0)
{
n++;
}
str++;
c = *str;
}
You don't need char c since you already have the pointer char *str, also you can replace != 0 with != '\0' for better readability (if not compatibility)
while (*str != '\0')
{
if (equiv((*str),comp)
!= 0)
{ n++; }
str++;
}
To understand what the code does, you can read it like this
while ( <str> pointed-to value is-not <end_of_string> )
{
if (function <equiv> with parameters( <str> pointed-to value, <comp> )
returned non-zero integer value)
then { increment <n> by 1 }
increment pointer <str> by 1 x sizeof(char) so it points to next adjacent char
}
strand assigns the value it points to tocand then comparescto zero. – ForceBru Mar 29 '17 at 10:43*strtakes value from address ofstr;c = *strassigns this value toc;(c = *str) != 0checks if this value is notNULL.NULLis the end of string marker in C/C++, see "null terminated string" en.wikipedia.org/wiki/Null-terminated_string – Dims Mar 29 '17 at 10:44NULLis used the depict null-pointer, not nul termination. Mixing those causes confusion. Also, no answers in comments, please. – user694733 Mar 29 '17 at 10:47