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Why does the following code produce a compile-time error? I cannot seem to see why the types are mismatched.

typedef char f_string[MAX_CHARS+1] ;    /* string for each field */

 * A parsed CSV line, with the number of fields and upto MAX_FIELDS themselves.

typedef struct {
    int nfields ;               /* 0 => end of file */
    f_string field[MAX_FIELDS] ;        /* array of strings for fields */
} csv_line;


csv_line sut;
sut.field[0] = "Name, "; //Compile-time error.

Error being:

error: incompatible types in assignment
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5 Answers 5

up vote 1 down vote accepted

sut.field[0] is a char[MAX_CHARS+1]

"Name, " is a const char*

Try this:

strcpy(sut.field[0], "Name, ");
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Thanks for your help. Acceptance for this answer because it was the quickest, kind of hard to choose between the others. –  Mike Dec 6 '10 at 3:20

You are trying to assign a const char * to a char[], which is not quite the same thing. This would work if your f_string were defined as

typedef const char * f_string;

What you are looking for here is

strcpy ( sut.field[0], "Name, " );

Or use strncpy so that you can specify the size of the destination buffer ..

strncpy ( sut.field[0], "Name, ", MAX_CHARS )

That will keep you from overrunning your buffer.

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strncpy() is not a "safe strcpy" - it is intended for handling fixed-length string fields, which do not necessarily have a null-terminator. –  caf Dec 6 '10 at 3:16
I'm not really sure what you mean by "safe strcpy". strncpy allows you to limit the number of characters copied to the destination buffer. If you set the max number of characters to something less than the size of the destination buffer, you will not overrun it if the source buffer contains a string larger than the destination buffer can hold. What will happen, as I have been reminded, is that you will not have a terminating null in your destination buffer; that case will have to be handled and the null added. –  Will Dec 6 '10 at 3:22
Right: it does not add a terminating '\0' if the source string is too long; and if the source string is short, it fills the remainder of the destination (which may be quite large) with '\0'. Since the former has to be handled, it is not the "drop in" replacement for strcpy() that many seem to believe. –  caf Dec 6 '10 at 3:31

You'll need to use something like:

strcpy( sut.field[0],"Name, ");

You can't assign strings like you tried other except as an initializater at declaration time.

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the type of sut.field[0] is array-of-char of size MAX_CHARS+1 - you cannot assign a string pointer to an array of characters.

You'd either need to change the type of csv_line::field to a const char*, or just do a string copy of the literal "Name, " to the target array.

Note that both strcpy() and strncpy() alone are unsafe: the first might overflow your buffer, and the second might leave it without a NUL terminator. You must be aware of BOTH of these circumstances even if you "know" that your string in question won't ever overflow.

Use a helper function to do this safely:

char * strncopy(char *dst, const char *src, int dstsize)
    strncpy(dst, src, dstsize-1);
    dst[dstsize-1] = '\0';

    return dst;


strncopy(sut.field[0], "Name, ", sizeof sut.field[0]);
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no need to make that function; it already exists: strncpy, and IIRC, strcpyn on some compilers. –  Will Dec 6 '10 at 3:07
@Will the code for strncopy uses strncpy internally. The OP is adding functionality to strncpy which guarantees that the string is always null-terminated. –  mgiuca Dec 6 '10 at 3:12
that being the case, then don't use strncpy at all, and do it yourself with a simple while loop and copy char by char, remembering to add the null at the end. –  Will Dec 6 '10 at 3:17
@Will - as easy as it is to get pointers wrong, especially off-by-one errors, you'd suggest to roll your own rather than use the known-and-tested function? –  Steve Friedl Dec 6 '10 at 3:20
whatever floats ones boat - I usually initialize my buffers so that they are filled with nulls to begin with, then strncpy, giving it one less than the buffer size as the maximum number of characters to copy. there are a number of ways to do it; was merely suggesting another. –  Will Dec 6 '10 at 3:28

The type of sut.field[0] is indeed char [MAX_CHARS+1]. However, most of the other answers have the type of "Name, " wrong - it is actually of type char [7] (use sizeof "Name, " for an easy demonstration of this).

Nonetheless, you still cannot directly assign a char [7] to a char [MAX_CHARS+1]. You cannot even directly assign a char [7] to another char [7] (initialisation is treated differently from assignment in this way).

The answer is probably just to use a coyping function - for example, if you are certain that MAX_CHARS >= 6, then you can just use strcpy(). If you cannot be sure about the length being correct, then you can use strncat() as as truncating string copy:

sut.field[0][0] = '\0';
strncat(sut.field[0], "Name, ", MAX_CHARS);

(Note that despite the name, strncpy() is not suitable for this, and in fact is very rarely the desired function at all).

It is worth pointing out, however, that you can indirectly assign arrays (of the same type) if they are wrapped up inside a struct. This means that the following will work (if you have a C99 compiler):

typedef struct { char s[MAX_CHARS+1] } f_string;    /* string for each field */

csv_line sut;
sut.field[0] = (f_string){"Name, "};
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+1 for strncat. Was reminded that strncpy will not terminate if the source is larger than the destination; had forgotten as well that strncat does terminate the destination buffer with a null. Been working with C++ std::string for too long that I forget some of the nuances of C strings. –  Will Dec 6 '10 at 3:42

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