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Currently I am reading in a line of strings and parsing it. I'm using the following variables to do so: char **parsed and char *parsed_arguments[64]. Here is the code I use to parse it:

char newcommand []
parsed =  parsed_arguments;
*parsed++ = strtok(newcommand,SEPARATORS);   // tokenize input
while ((*parsed++ = strtok(NULL,SEPARATORS)))

That part is fine and dandy, but my problem arises when I try to add to parsed_arguments. What I'm trying to accomplish is reading text from a file, placing it in char buffer[], tokenizing it, and adding it to parsed_arguments so I can pass those arguments to a program using execvp. So far I am able to read text and place it into my buffer and I've even tried tokenizing it, but the last part just confuses me. Here's more code detailing what I'm working on:


    switch(pid =fork())
      case -1:
        printf("fork error, aborting\n");
      case 0:
        parsed_arguments[input_Index-1] = NULL; 
        input_File = freopen(parsed_arguments[input_Index],"r",stdin);
        fgets(buffer, 1023, input_File);

        buf =  parsed_buf;
        *buf++ = strtok(buffer,SEPARATORS);   // tokenize input
        while ((*buf++ = strtok(NULL,SEPARATORS)))

        //strcat(parsed, buf); // invalid

        printf("The buffer holds: %s\n", buffer);

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1 Answer 1

I think you might be overthinking this problem. Based on the parsing code at the top of your question, you have already solved the problem.

parsed =  parsed_arguments; 
/* parsed now points to the first element parsed_arguments */
*parsed++ = strtok(newcommand,SEPARATORS);   // tokenize input
while ((*parsed++ = strtok(NULL,SEPARATORS)))
    ; /* habit of mine */
/* At this point, parsed_arguments should be now populated with each
   token from newcommand by strtok
   Minus a few caveats, the following call should be valid */
execvp(parsed_arguments[0], parsed_arguments);

Before I describe the caveats that I mentioned (that I know of), I'll quickly explain why this should work: strtok returns the pointer of the last token found in its first argument. This pointer is then written in this variable: *parsed++ (which is an expression that evaluates into an l-value). This dereferences the address pointed to by parsed(which is an element of parsed_arguments). Finally, the post-fix ++ operator simply makes parsed point to the next element of parsed_arguments after the full expression is evaluated.

The important thing to note, is parsed points to the same block of memory occupied by parsed_arguments. By setting parsed = parsed_arguments, *parsed = token is equivalent to parsed_arguments[some_index] = token.

You could express your code (not quite as elegantly) without pointer arithmetic as such:

int argc = 0;
/* declarations, etc *SNIP* */
parsed_arguments[argc] = strtok(newcommand, delim);
while (parsed_arguments[argc++]) {
    parsed_arguments[argc] = strtok(NULL, delim);

I hope this is the answer you were looking for, or at least helps point you in the right direction, based on the actual code provided (since a lot is missing, for obvious reasons), and there is a parsed_buf, buf that seem to mimic parsed and parsed_arguments, but those also exist in the code, I am not 100% sure if I completely understand what you are trying to do.


execvp(...)'s documentation states that by convention, the first element of the arguments should be the file name (I see that you already know this), but nonetheless, make sure the program name is the first element--either have your file's content have the program name first, or just start from the second element.

execvp(...) also states that the last argument should be a NULL pointer. You can ensure this by a call to memset(parsed_arguments, 0, sizeof(parsed_arguments)); and ensuring the file never specifies more than 64 arguments.


Lastly, (possibly nit-picking), while (pointer) works on the premise that NULL == 0 (in most cases, it is (void *) 0 AFAIK), I don't know how important it is to you, but if you ever run into an implementation where NULL is not defined as 0, it might cause some issues. So, it would be safer to write while ((*parsed++ = strtok(NULL, SEPARATORS)) != NULL). My two cents anyway.

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Thanks for the answer. What I'm trying to do is to pass the contents of a file to the program as arguments. i.e. ./programname < filename. Any idea how to do that? I believe it is similar to using a batch file. –  blutuu Apr 28 '13 at 4:57
./programname < filename (in Bash and cmd, anyway) simply redirects stdin of the program to the file (just as ./programname > filename redirects stdout to the file) Is that what you are trying to do? I thought you meant file=some arg list, then ./programname some arg list. From what I know, if you want file redirection, after the call to fork() (if it succeeds), you simply need to open the file, copy the file descriptor to STDIN_FILENO (effectively replacing STDIN_FILENO) and then calling execvp(...) linux.die.net/man/2/dup2 linux.die.net/man/3/open –  void ptr Apr 28 '13 at 5:24
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