With two 2D arrays both with automatic storage duration, you have two fixed blocks of memory that must remain valid during the operation of your program. You cannot declare the arrays within the functions you call, because the storage for the arrays will no longer be valid after the function returns. (the storage will be created within memory used to set up the function call, the function stack frame, and that memory will be released for re-use on the function return) Instead you will need to declare your arrays in main()
and pass the arrays as parameters to the functions that need them.
As far as whether you can use 2D arrays and then add and remove strings -- of course you can. The arrays are simply blocks of memory you can make any valid use of that you desire. To add to the arrays, you simply need to check if they are already full by passing the number of elements contained in the arrays as an additional parameter to your functions (pass a pointer so that you can update the value at that address in the function and have the change visible back in the calling function -- or return the updated value and assign it back in the caller)
Now you wouldn't want to use this approach on large data sets as copying up to your arrays size worth or rows for each removal is highly inefficient. However for use as a learning exercise with less than a few hundred rows of so, it's just fine. It doesn't matter if the arrays have automatic storage duration or are created with allocated storage duration, manipulating what is in the blocks of memory is largely the same. Validate and protect the bounds of whatever memory you are working with.
To remove from the arrays, you simply check whether the index to remove is a valid index and it is within the elements that are currently stored. If so, just copy each of the rows above down by one and update the number of elements stored accordingly. The arrays are just storage, there for you to use.
Before looking at how you can do this, let's look at your defines. Generally macros names are defined in all upper case. You don't need nearly as many as you have (unless you are using them for reasons not shown). You can fix the case and narrow them down to what is needed similar to the following:
#define NROWS 5 /* simplify your constants */
#define MAXLEN 32 /* all upper-case */
#define LINLEN 1024
While not an error, C generally avoids the use of camelCase
or MixedCase
variable and function names in favor of all lower-case. That is a matter of style, so completely up to you.
Your addarray()
function could be written similar to the following:
int addarray (char (*names)[MAXLEN], char (*groups)[MAXLEN], size_t *nmemb)
{
if (*nmemb == NROWS) { /* check array full */
puts ("\n(arrays full)\n");
return 0;
}
char line[LINLEN]; /* buffer to hold input */
size_t len; /* length of input */
fputs ("\n--Input Name = ", stdout); /* prompt for name */
if (!fgets (line, LINLEN, stdin) || *line == '\n') { /* VALIDATE!, handle EOF */
puts ("\n(user canceled input)\n");
return 0;
}
line[(len = strcspn(line, "\n"))] = 0; /* trim \n, save length */
if (len >= MAXLEN) { /* validate name fits */
fputs (" error: name exceeds storage\n", stderr);
return 0;
}
memcpy (names[*nmemb], line, len + 1); /* copy to names */
fputs ("--Input Group = ", stdout); /* prompt for group */
if (!fgets (line, LINLEN, stdin) || *line == '\n') { /* VALIDATE!, handle EOF */
puts ("\n(user canceled input)\n");
return 0;
}
line[(len = strcspn(line, "\n"))] = 0; /* trim \n, save length */
if (len >= MAXLEN) { /* validate name fits */
fputs (" error: group exceeds storage\n", stderr);
return 0;
}
memcpy (groups[(*nmemb)++], line, len + 1); /* copy to groups,
* increment nmemb */
return 1; /* return success */
}
(note: most of the function is simply validation. You must validate all input and ensure your do not attempt to write beyond your array bounds)
The removearray()
is a bit shorter due to there being only one input validations. You could write your function similar to:
int removearray (char (*names)[MAXLEN], char (*groups)[MAXLEN], size_t *nmemb)
{
size_t loc, i;
char line[LINLEN]; /* buffer to hold input */
fputs ("enter location to remove: ", stdout); /* request idx to remove */
if (!fgets (line, LINLEN, stdin) || *line == '\n') { /* VALIDATE!, handle EOF */
puts ("\n(user canceled input)\n");
return 0;
}
if (sscanf (line, "%zu", &loc) != 1) { /* convert/VALIDATE! */
fputs (" error: invalid location input.\n", stderr);
return 0;
}
if (NROWS - 1 < loc || *nmemb <= loc) { /* validate location */
fputs (" error: position requested out of range.\n", stderr);
return 0;
}
for (i = loc + 1; i < *nmemb; i++) { /* loop from index above until end */
strcpy (names[i - 1], names[i]); /* overwrite row to remove */
strcpy (groups[i - 1], groups[i]); /* ditto */
}
(*nmemb)--; /* decrement no. of members in array */
return 1; /* return success */
}
Then to ensure your array storage remains valid, declare them within main()
. That way you are free to pass the arrays to any function where they are needed along with a variable (or pointer) tracking the number of elements within them. A short implementation would be:
int main (void) {
char names[NROWS][MAXLEN] = {""}, /* names */
groups[NROWS][MAXLEN] = {""}; /* groups */
size_t nmemb = 0; /* no. members in each */
while (addarray (names, groups, &nmemb)) {} /* add to both */
prnarrays (names, groups, nmemb); /* output both */
putchar ('\n');
while (removearray (names, groups, &nmemb)) {} /* remove from both */
prnarrays (names, groups, nmemb); /* output both */
}
Example Use/Output
Exercising the code you could do the following (just press Enter alone on a blank line when done with either input to stop input at that point):
$ ./bin/array_addrem_row
--Input Name = my
--Input Group = pronoun
--Input Name = dog
--Input Group = animal
--Input Name = has
--Input Group = being-verb
--Input Name = fleas
--Input Group = insect
--Input Name = bummer!
--Input Group = adverb
(arrays full)
my pronoun
dog animal
has being-verb
fleas insect
bummer! adverb
enter location to remove: 4
enter location to remove: 0
enter location to remove:
(user canceled input)
dog animal
has being-verb
fleas insect
or, simply repeatedly removing the first row until your arrays are empty, you could do:
$ ./bin/array_addrem_row
--Input Name = my
--Input Group = pronoun
--Input Name = dog
--Input Group = animal
--Input Name = has
--Input Group = being-verb
--Input Name = fleas
--Input Group = insect
--Input Name = bummer!
--Input Group = adverb
(arrays full)
my pronoun
dog animal
has being-verb
fleas insect
bummer! adverb
enter location to remove: 0
enter location to remove: 0
enter location to remove: 0
enter location to remove: 0
enter location to remove: 0
enter location to remove: 0
error: position requested out of range.
(arrays empty)
It is just arithmetic that is needed to keep your array operations within bounds and valid. The complete code including the prnarrays()
function is as follows:
#include <stdio.h>
#include <string.h>
#define NROWS 5 /* simplify your constants */
#define MAXLEN 32 /* all upper-case */
#define LINLEN 1024
int addarray (char (*names)[MAXLEN], char (*groups)[MAXLEN], size_t *nmemb)
{
if (*nmemb == NROWS) { /* check array full */
puts ("\n(arrays full)\n");
return 0;
}
char line[LINLEN]; /* buffer to hold input */
size_t len; /* length of input */
fputs ("\n--Input Name = ", stdout); /* prompt for name */
if (!fgets (line, LINLEN, stdin) || *line == '\n') { /* VALIDATE!, handle EOF */
puts ("\n(user canceled input)\n");
return 0;
}
line[(len = strcspn(line, "\n"))] = 0; /* trim \n, save length */
if (len >= MAXLEN) { /* validate name fits */
fputs (" error: name exceeds storage\n", stderr);
return 0;
}
memcpy (names[*nmemb], line, len + 1); /* copy to names */
fputs ("--Input Group = ", stdout); /* prompt for group */
if (!fgets (line, LINLEN, stdin) || *line == '\n') { /* VALIDATE!, handle EOF */
puts ("\n(user canceled input)\n");
return 0;
}
line[(len = strcspn(line, "\n"))] = 0; /* trim \n, save length */
if (len >= MAXLEN) { /* validate name fits */
fputs (" error: group exceeds storage\n", stderr);
return 0;
}
memcpy (groups[(*nmemb)++], line, len + 1); /* copy to groups,
* increment nmemb */
return 1; /* return success */
}
int removearray (char (*names)[MAXLEN], char (*groups)[MAXLEN], size_t *nmemb)
{
size_t loc, i;
char line[LINLEN]; /* buffer to hold input */
fputs ("enter location to remove: ", stdout); /* request idx to remove */
if (!fgets (line, LINLEN, stdin) || *line == '\n') { /* VALIDATE!, handle EOF */
puts ("\n(user canceled input)\n");
return 0;
}
if (sscanf (line, "%zu", &loc) != 1) { /* convert/VALIDATE! */
fputs (" error: invalid location input.\n", stderr);
return 0;
}
if (NROWS - 1 < loc || *nmemb <= loc) { /* validate location */
fputs (" error: position requested out of range.\n", stderr);
return 0;
}
for (i = loc + 1; i < *nmemb; i++) { /* loop from index above until end */
strcpy (names[i - 1], names[i]); /* overwrite row to remove */
strcpy (groups[i - 1], groups[i]); /* ditto */
}
(*nmemb)--; /* decrement no. of members in array */
return 1; /* return success */
}
void prnarrays (char (*names)[MAXLEN], char (*groups)[MAXLEN], size_t nmemb)
{
if (nmemb == 0) {
puts ("\n(arrays empty)\n");
return;
}
for (size_t i = 0; i < nmemb; i++)
printf ("%-20s %s\n", names[i], groups[i]);
}
int main (void) {
char names[NROWS][MAXLEN] = {""}, /* names */
groups[NROWS][MAXLEN] = {""}; /* groups */
size_t nmemb = 0; /* no. members in each */
while (addarray (names, groups, &nmemb)) {} /* add to both */
prnarrays (names, groups, nmemb); /* output both */
putchar ('\n');
while (removearray (names, groups, &nmemb)) {} /* remove from both */
prnarrays (names, groups, nmemb); /* output both */
}
Look things over and let me know if you have any questions.
strcmp()
for comparision of C strings.word[Names][i] == word[Names][i+1]; word2[Groups][i] == word2[Groups][i+1];
does nothing. The result of comparisions are simply discarded without being used. You will have to put comparisions in conditions of branch statements such asif
,for
,while
.