In C, If I have:

char *reg = "[R5]";

and I want

char *reg_alt = "R5" (equal to the same thing, but without the brackets), how do I do this?

I tried

*char reg_alt = reg[1:2];

but this doesn't work.


There is no built-in syntax for dealing with substrings like that, so you need to copy the content manually:

char res[3];
memcpy(res, &reg[1], 2);
res[2] = '\0';
  • In addition to this good answer is the fact that you can also copy substrings from the original string in reverse by using a for loop. – Jake Psimos Mar 14 '16 at 6:17
  • 1
    memmove, unlike memcpy, would allow for overlapping source and destination. You don't need to re-invent it with an explicit loop. – JDługosz Mar 14 '16 at 7:47

I suggest you need to read a basic text on C, rather than assuming techniques from other languages will just work.

First, char *reg = "[R5]"; is not a string. It is a pointer, that is initialised to point to (i.e. its value is the address of) the first character of a string literal ("[R5]").

Second, reg_alt is also a pointer, not a string. Assigning to it will contain an address of something. Strings are not first class citizens in C, so the assignment operator doesn't work with them.

Third, 1:2 does not specify a range - it is actually more invalid syntax. Yes, I know other languages do. But not C. Hence my comment that you cannot assume C will allow things it the way that other languages do.

If you want to obtain a substring from another string, there are various ways. For example;

  char substring[3];
  const char *reg = "[R5]";    /* const since the string literal should not be modified */

  strncpy(substring, &reg[1], 2);     /* copy 2 characters, starting at reg[1], to substring */
  substring[2] = '\0';     /*  terminate substring */

  printf("%s\n", substring);

strncpy() is declared in standard header <string.h>. The termination of the substring is needed, since printf() %s format looks for a zero character to mark the end.

  • 1
    Between memcopy() and strncopy(), is there any reason to use one over the other? – Austin Mar 14 '16 at 3:24
  • 5
    There is no such thing as memcopy() or strncopy(). strncpy() will detect zero terminators on strings, and stop copying. It will also cease copying if the source string is shorter than the length specified. memcpy() will copy regardless - which will cause undefined behaviour if the source string is shorter than the specified length. – Peter Mar 14 '16 at 3:29
  • 2
    @Austin: On the other hand, you need to be aware that strncpy()... 1) fills up the remaining space with null bytes, i.e. will always write the full n bytes, and 2) will leave the destination unterminated if there is no null byte in the first n bytes of the source string. It's a tricky function that way. – DevSolar Mar 14 '16 at 10:23

When using null-terminated strings (the default in C), you can indeed cheaply create a substring of another string by simply changing the starting character pointer, but you cannot make the new substring have a different null-terminator.

An option is to use a Pascal-string library. Pascal-strings are length-prefixed instead of C-strings which are null-terminated, which means Pascal-strings can share contents of a larger string buffer and substring generation is cheap (O(1)-cheap). A Pascal string looks like this:

struct PString {
    size_t length;
    char*  start;

PString substring(const PString* source, size_t offset, size_t length) {
    // Using C99 Designated Initializer syntax:
    return PString { .length =  length, .start = source.start + offset };

The downside is that most of the C library and platform libraries use null-terminated strings and unless your Pascal-string ends in a null character you'll need to copy the substring to a new buffer (in O(n) time).

Of course, if you're feeling dangerous (and using mutable character buffers) then you can hack it to temporarily insert a null-terminator, like so:

struct CStr {
    char* start;
    char* end;
    char  temp;

CStr getCStr(PString* source) {
    char* terminator = (source.start + source.length);
    char previous = *terminator;
    *terminator = '\0';
    return CStr { .start = source.start, .end = terminator, .temp = previous };

void undoGetCStr(CStr cstr) {
    *cstr.end = cstr.temp;

Used like so:

PString somePascalString = doSomethingWithPascalStrings();
CStr temp = getCStr( somePascalString );
printf("My Pascal string: %s", temp.start ); // using a function that expects a C-string
undoGetCStr( temp );

...which then gives you O(1) PString-to-CString performance, provided you don't care about thread-safety.

  • 1
    The main disadvantage of this answer is that Pascal-string libraries are not generally distributed with C compilers and libraries. – Peter Mar 14 '16 at 3:23
  • @Peter I've added a simple hack that allows you to use Pascal-strings with functions that expect C-strings. – Dai Mar 14 '16 at 5:54

Need to be a char?

Because that only work when is a "string" So maybe you need this

char reg[] = "[R5]";

Then you can do the other thing or just split the string like this question

  • I need to pass it as a char* to other functions so I don't want to have to rewrite all of them to take char[] instead – Austin Mar 14 '16 at 3:11
  • Arguments of type char [] and char * are the same thing in C. The problem is, within a function where an array is created, they are different things. – Peter Mar 14 '16 at 3:25

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