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stringlengths 24
24
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stringlengths 24
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values | feature_version
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values | input_question
stringlengths 1
1.24k
⌀ | input_code
stringlengths 2
18.5k
⌀ | input_intention
stringlengths 1
2.48k
⌀ | input_task_description
stringlengths 18
3.32k
⌀ |
|---|---|---|---|---|---|---|---|
63c647895f004bf4898cf496 | 2023-02-03T07:26:44.950Z | Help Fix Code | v1 | null | int truncate(char *target, int amt){
int leng = strlen(target);
if (leng > amt){
return 0;
}
char result[45] = "abc" ;
strncpy(result, target, amt);
printf("This is the value of the truncated string: %s\n", result);
return leng - amt ;
} | supposed to take target and store the first amt characters in result. | null |
63c647895f004bf4898cf496 | 2023-02-13T01:46:40.306Z | Help Fix Code | v1 | null | int make_post(const User *author, User *target, char *contents) {
if(author == NULL || target == NULL){
printf("Returning 2\n");
return 2;
}
//We only check in one list because we assume that make_friends works properly
int flag = 0;
for(int i=0; i<MAX_FRIENDS; i++){
if ((author->friends[i] != NULL) && (author->friends[i]->name == target->name)){
flag = 1;
}
}
if(flag != 1){ //if flag == 1, then they are friends. So we return if != 1.
return 1;
}
Post *newpost = malloc(sizeof(Post));
strcpy(newpost->author, author->name);
newpost->contents = contents;
time_t creation_time = time(NULL);
*(newpost->date ) = creation_time;
newpost->next = target->first_post;
target->first_post = newpost;
return 0;
} | Make a new post from 'author' to the 'target' user,
* containing the given contents, IF the users are friends.
*
* Insert the new post at the *front* of the user's list of posts.
*
* 'contents' is a pointer to heap-allocated memory - you do not need
* to allocate more memory to store the contents of the post.
*
* Return:
* - 0 on success
* - 1 if users exist but are not friends
* - 2 if either User pointer is NULL | null |
63c647895f004bf4898cf496 | 2023-02-13T01:51:31.338Z | Help Fix Code | v1 | null | typedef struct user {
char name[MAX_NAME];
char profile_pic[MAX_NAME]; // This is a *filename*, not the file contents.
struct post *first_post;
struct user *friends[MAX_FRIENDS];
struct user *next;
} User;
typedef struct post {
char author[MAX_NAME];
char *contents;
time_t *date;
struct post *next;
} Post;
int make_post(const User *author, User *target, char *contents) {
if(author == NULL || target == NULL){
printf("Returning 2\n");
return 2;
}
//We only check in one list because we assume that make_friends works properly
int flag = 0;
for(int i=0; i<MAX_FRIENDS; i++){
if ((author->friends[i] != NULL) && (author->friends[i]->name == target->name)){
flag = 1;
}
}
if(flag != 1){ //if flag == 1, then they are friends. So we return if != 1.
return 1;
}
Post *newpost = malloc(sizeof(Post));
strcpy(newpost->author, author->name);
newpost->contents = contents;
time_t creation_time = time(NULL);
*(newpost->date ) = creation_time;
newpost->next = target->first_post;
target->first_post = newpost;
return 0;
} | problem with newpost->date; | null |
63c647895f004bf4898cf496 | 2023-02-13T02:19:56.199Z | Help Fix Code | v1 | null | typedef struct user {
char name[MAX_NAME];
char profile_pic[MAX_NAME]; // This is a *filename*, not the file contents.
struct post *first_post;
struct user *friends[MAX_FRIENDS];
struct user *next;
} User;
typedef struct post {
char author[MAX_NAME];
char *contents;
time_t *date;
struct post *next;
} Post;
int make_post(const User *author, User *target, char *contents) {
if(author == NULL || target == NULL){
printf("Returning 2\n");
return 2;
}
//We only check in one list because we assume that make_friends works properly
int flag = 0;
for(int i=0; i<MAX_FRIENDS; i++){
if ((author->friends[i] != NULL) && (author->friends[i]->name == target->name)){
flag = 1;
}
}
if(flag != 1){ //if flag == 1, then they are friends. So we return if != 1.
return 1;
}
Post *newpost = malloc(sizeof(Post));
strcpy(newpost->author, author->name);
newpost->contents = contents;
time_t creation_time = time(NULL);
*(newpost->date ) = creation_time;
newpost->next = target->first_post;
target->first_post = newpost;
return 0;
} | I want to allocate memory on the heap for the current time. Then I want to set newpost->date to point to this time. | null |
63c647895f004bf4898cf496 | 2023-02-13T21:29:42.186Z | Help Fix Code | v1 | null | for(int i=0; i<MAX_FRIENDS - 1; i++){
if(strcmp(curr->friends[i]->name, name) == 0){ //deleted user is in the list.
curr->friends[MAX_FRIENDS - 1] = NULL; //Last element must be NULL after deletion.
int j = i;
for(int j; j < MAX_FRIENDS-1; j++){
//from i(index with deleted user), shift over every element to the left
curr->friends[j] = curr->friends[j + 1];
}
}
} | I want to iterate through elements up until a point. Then if I reach that point, I want to shift each element from that point onwards to the left. | null |
63c647895f004bf4898cf496 | 2023-02-13T21:30:44.138Z | Explain Code | v1 | null | for(int i=0; i<MAX_FRIENDS - 1; i++){
if(strcmp(curr->friends[i]->name, name) == 0){ //deleted user is in the list.
curr->friends[MAX_FRIENDS - 1] = NULL; //Last element must be NULL after deletion.
int j = i;
for(int j; j < MAX_FRIENDS-1; j++){
//from i(index with deleted user), shift over every element to the left
curr->friends[j] = curr->friends[j + 1];
}
}
} | null | null |
63c647895f004bf4898cf496 | 2023-02-13T23:05:13.616Z | Help Fix Code | v1 | null | User *current = *user_ptr_del;
while(current != NULL){
printf("Now in %s\n", current->name);
int i=0;
for(i; i<MAX_FRIENDS - 1; i++){
if((current->friends[i] != NULL) && (strcmp(current->friends[i]->name, name) == 0)){
for(int i; i < MAX_FRIENDS-1; i++){
//from i(index with deleted user), shift over every element to the left
printf("%s Old value: %s\n", current->name, current->friends[i]->name);
current->friends[i] = current->friends[i + 1];
printf("%s New value: %s\n", current->name, current->friends[i]->name);
}
current->friends[MAX_FRIENDS - 1] = NULL; //Last element must be NULL after deletion.
}
}
current = current->next;
} | iterate through all of the User objects. For each user, it checks through the User's list of friends. | null |
63c647895f004bf4898cf496 | 2023-02-15T20:22:09.563Z | Question from Code | v1 | how would i free the space that is allocated to post->contents | typedef struct user {
char name[MAX_NAME];
char profile_pic[MAX_NAME]; // This is a *filename*, not the file contents.
struct post *first_post;
struct user *friends[MAX_FRIENDS];
struct user *next;
} User;
typedef struct post {
char author[MAX_NAME];
char *contents;
time_t *date;
struct post *next;
} Post;
| null | null |
63c6478a5f004bf4898cf4a0 | 2023-01-30T18:40:51.261Z | General Question | v1 | how can I scan multiple lines with scanf
| null | null | null |
63c6478a5f004bf4898cf4a0 | 2023-01-30T21:56:15.423Z | General Question | v1 | /bin/bash: line 1: [: too many arguments | null | null | null |
63c6478a5f004bf4898cf4a0 | 2023-01-30T22:23:11.436Z | General Question | v1 | how to read a multiline string using scan f until the end of the string?
| null | null | null |
63c6478b5f004bf4898cf4a5 | 2023-01-17T18:40:22.766Z | General Question | v1 | what is a pointer | null | null | null |
63c6478b5f004bf4898cf4aa | 2023-01-18T05:30:49.651Z | General Question | v1 | what is wrong with this test error?
phone_loop_checker.py::TestPhoneLoop::test_valid
fail
0 / 1
c_helper.py:125: in _t
stdout, stderr, returncode = self._run_exec(args=args, input_=input_, timeout=timeout)
c_helper.py:85: in _run_exec
return _exec([os.path.join(".", self.executable_name)] + (args or []), **kwargs)
c_helper.py:475: in _exec
raise e from e
c_helper.py:471: in _exec
stdout, stderr = proc.communicate(timeout=timeout, input=input_)
/local/packages/python-3.10/lib/python3.10/subprocess.py:1152: in communicate
stdout, stderr = self._communicate(input, endtime, timeout)
/local/packages/python-3.10/lib/python3.10/subprocess.py:2004: in _communicate
self._check_timeout(endtime, orig_timeout, stdout, stderr)
/local/packages/python-3.10/lib/python3.10/subprocess.py:1196: in _check_timeout
raise TimeoutExpired(
E subprocess.TimeoutExpired: Command '['./phone_loop']' timed out after 2 seconds | null | null | null |
63c6478b5f004bf4898cf4aa | 2023-01-18T06:06:43.169Z | Help Fix Code | v1 | null | int main() {
char phone[11];
int i;
scanf("%s", phone);
do {
scanf("%d", &i);
if (i == -1) {
printf("%s\n", phone);
}
else if (0 <= i && i <= 9) {
printf("%c\n", phone[i]);
}
else {
printf("ERROR");
return 1;
}
}
while (i != 1);
return 0;
} | Your task is to write a C program called phone_loop.c. This program will again read from standard input using scanf and take no command-line arguments. Similar to phone.c, this program reads a 10-character string as the first input value but then it repeatedly reads integers until standard input is closed. (Hint: Use a while loop that checks the return value of scanf to accomplish this. Check the man page for scanf to determine the return value when the input stream is closed.)
After each integer the output produced is as before:
if the integer is -1, the full string is printed
if the integer is between 0 and 9, the individual character at that position is printed
if the integer is less than -1 or greater than 9, the message "ERROR" is printed (to stdout)
In each case the printing is followed by a newline character.
When the program finishes running, main returns with a 0 return code if there were no errors and with a 1 return code otherwise.
Note: the program must not print anything other than then the values specified. | null |
63c6478b5f004bf4898cf4aa | 2023-01-18T06:17:09.656Z | Help Fix Code | v1 | null | int main() {
char phone[11];
int i;
int result_to_check;
scanf("%s", phone);
do {
result_to_check = scanf("%d", &i);
if (i == -1) {
printf("%s\n", phone);
}
else if (0 <= i && i <= 9) {
printf("%c\n", phone[i]);
}
else {
printf("ERROR");
return 1;
}
}
while (result_to_check != EOF);
return 0;
} | Your task is to write a C program called phone_loop.c. This program will again read from standard input using scanf and take no command-line arguments. Similar to phone.c, this program reads a 10-character string as the first input value but then it repeatedly reads integers until standard input is closed. (Hint: Use a while loop that checks the return value of scanf to accomplish this. Check the man page for scanf to determine the return value when the input stream is closed.)
After each integer the output produced is as before:
if the integer is -1, the full string is printed
if the integer is between 0 and 9, the individual character at that position is printed
if the integer is less than -1 or greater than 9, the message "ERROR" is printed (to stdout)
In each case the printing is followed by a newline character.
When the program finishes running, main returns with a 0 return code if there were no errors and with a 1 return code otherwise.
Note: the program must not print anything other than then the values specified. | null |
63c6478c5f004bf4898cf4af | 2023-01-21T05:17:53.406Z | General Question | v1 | what does ls -s do
| null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T05:44:44.838Z | General Question | v1 | what does the number next to total in the output of ls -l mean
| null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T06:21:26.514Z | General Question | v1 | what is strtod in c
| null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T06:39:37.920Z | General Question | v1 | why is the first argument of argv indexed at 1 | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T06:41:55.803Z | General Question | v1 | when creating strings in C, do we need one extra element to hold any special characters? | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T06:49:16.413Z | General Question | v1 | how do I take in a string as an argument | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T06:54:55.484Z | General Question | v1 | generate a detailed documentation of `fgets` with usage examples and explanations | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T07:38:32.368Z | General Question | v1 | how do I store a 5 length string from the command line argument | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T07:41:14.230Z | General Question | v1 | does c break conditionals early with && | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T07:51:36.866Z | General Question | v1 | how do I skip a line from the input with scanf | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T08:08:44.352Z | General Question | v1 | how do I split a string | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T08:31:11.107Z | General Question | v1 | string formatting doucmentation | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T08:41:47.326Z | General Question | v1 | is this valid
permission[10] = "---------\0"; | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T09:03:38.625Z | General Question | v1 | print without special characters | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T09:16:28.857Z | General Question | v1 | how do you properly compare strings in c | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T09:23:05.125Z | Question from Code | v1 | how would I properly point to the parameters | int check_permissions(char *current_perms, char *required_perms){
int i;
for (i = 0; i < 9; i++) {
if (strcmp(required_perms[i], "-") == 0 && strcmp(current_perms[i], "-") == 0) {
return 1;
}
}
return 0;
} | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T09:27:28.336Z | General Question | v1 | how do I compare a string literal with a element of a char array | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T09:41:02.596Z | Question from Code | v1 | what does this format mean | %*[^\n] | null | null |
63c6478c5f004bf4898cf4af | 2023-01-21T09:41:46.825Z | General Question | v1 | can you explain %*[^\n] in detail | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-23T02:01:23.510Z | General Question | v1 | typecast bool to int in c
| null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-23T02:08:47.091Z | General Question | v1 | how do I call helper functions from another file | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-23T02:23:15.638Z | General Question | v1 | does c automatically convert integers to bools in conditionals | null | null | null |
63c6478c5f004bf4898cf4af | 2023-01-24T23:40:56.421Z | Question from Code | v1 | is this valid | int *build_array(char **strs, int size) {
int **array_pointer;
array_pointer = malloc(sizeof(int) * size);
int i = 0;
for (i = 0, i < size;, i++) {
strtol((*array_pointer)[i], NULL, 10);
}
return array_pointer;
} | null | null |
63c6478c5f004bf4898cf4af | 2023-02-01T00:57:35.283Z | General Question | v1 | provide documentation for strncmp
| null | null | null |
63c6478c5f004bf4898cf4af | 2023-02-01T01:06:10.206Z | General Question | v1 | does argc include the name of the file | null | null | null |
63c6478c5f004bf4898cf4af | 2023-02-01T01:28:52.955Z | Help Fix Code | v1 | null | if (strlen(argv[1]) == strlen(argv[2]) && strncmp(argv[1], argv[2], strlen(argv[1]) == 0)) {
printf("Same\n");
} | it should compare if the 2 strings are equal | null |
63c6478c5f004bf4898cf4af | 2023-02-01T02:10:47.376Z | General Question | v1 | difference between string literal and constant | null | null | null |
63c6478c5f004bf4898cf4af | 2023-02-01T02:13:42.922Z | General Question | v1 | does adding a null terminator in the middle of a stack allocated string change the pointer of the stack | null | null | null |
63c6478c5f004bf4898cf4af | 2023-02-01T02:25:23.315Z | General Question | v1 | how do you check if 2 strings are equal | null | null | null |
63c6478c5f004bf4898cf4af | 2023-02-01T02:27:04.131Z | Explain Code | v1 | null | char *a = argv[1];
char *b = argv[2];
if (*a == *b) {
printf("Same\n");
} | null | null |
63c6478c5f004bf4898cf4af | 2023-02-10T19:57:29.226Z | General Question | v1 | how do I check for memory leaks
| null | null | null |
63c6478c5f004bf4898cf4af | 2023-02-15T00:32:11.598Z | General Question | v1 | provide code for basic linked list traversal pattern | null | null | null |
63c6478c5f004bf4898cf4af | 2023-02-15T00:42:49.535Z | General Question | v1 | c do while | null | null | null |
63c6478c5f004bf4898cf4af | 2023-02-15T01:02:08.432Z | General Question | v1 | how do you vie stderror | null | null | null |
63c6478c5f004bf4898cf4af | 2023-02-15T01:32:38.840Z | Help Fix Code | v1 | null | int create_user(const char *name, User **user_ptr_add) {
// Check username length
if (strlen(name) > MAX_NAME - 1) {
return 2;
}
User * curr = *user_ptr_add;
// Check empty list
if (curr == NULL) {
User *new_user = malloc(sizeof(User));
strncpy(new_user->name, name, MAX_NAME);
new_user->name[MAX_NAME-1] = '\0';
* user_ptr_add = new_user;
return 0;
}
do { // Guarantee check first element
if (strcmp(curr->name, name) == 0) {
return 1;
}
curr = curr->next;
} while (curr != NULL);
// Add new User
User *new_user = malloc(sizeof(User));
strncpy(new_user->name, name, MAX_NAME);
new_user->name[MAX_NAME-1] = '\0';
curr->next = new_user;
return 0;
}
| accepts a string up to length MAX_NAME | null |
63c6478c5f004bf4898cf4af | 2023-02-15T02:56:28.050Z | General Question | v1 | waht does const do in parameter type | null | null | null |
63c6478c5f004bf4898cf4af | 2023-02-15T05:27:33.566Z | General Question | v1 | how to use time() | null | null | null |
63c6478c5f004bf4898cf4af | 2023-02-15T19:28:47.771Z | General Question | v1 | how do you free a struct | null | null | null |
63c6478c5f004bf4898cf4af | 2023-02-15T19:32:27.011Z | General Question | v1 | can I free a pointer but not the object it refers too if I have a copy of the pointer | null | null | null |
63c6478c5f004bf4898cf4af | 2023-02-15T19:35:51.618Z | General Question | v1 | does freeing a char array free the whole array | null | null | null |
63c6478c5f004bf4898cf4af | 2023-02-21T03:35:27.079Z | General Question | v1 | why does fork() not loop infinitely in a program | null | null | null |
63c6478c5f004bf4898cf4af | 2023-03-15T07:35:49.049Z | Help Write Code | v2 | null | null | null | how do you allocate tokens from strtok into an array |
63c6478c5f004bf4898cf4af | 2023-03-15T16:17:28.903Z | General Question | v2 | what is the syntax for a struct pointer | null | null | null |
63c6478f5f004bf4898cf4c3 | 2023-01-18T00:53:11.435Z | Help Fix Code | v1 | null | /******************************************************************************
Online C Compiler.
Code, Compile, Run and Debug C program online.
Write your code in this editor and press "Run" button to compile and execute it.
*******************************************************************************/
#include <stdio.h>
int main(){
int a[10];
int size = 10;
change(a, size);
}
static double change(int *a, int size){
int sum;
double average;
for(int i = 0; i < size; i++){
a[i] = a[i]+10;
sum += a[i];
}
average = sum / size;
return average;
} | null | null |
63c6478f5f004bf4898cf4c3 | 2023-01-18T00:54:22.190Z | Help Fix Code | v1 | null | /******************************************************************************
Online C Compiler.
Code, Compile, Run and Debug C program online.
Write your code in this editor and press "Run" button to compile and execute it.
*******************************************************************************/
#include <stdio.h>
int main(){
int a[10];
int size = 10;
change(a, size);
}
static double change(int *a, int size){
int sum;
double average;
for(int i = 0; i < size; i++){
a[i] = a[i]+10;
sum += a[i];
}
average = sum / size;
return average;
}
| In the space below, write a small program that allocates an array of integers in the main function and passes
that array to a function called change. (You’ll also need to pass in the length of the array – why?) The function
should do two things:
• Add 10 to each element of the array.
• Return the average of the new contents of the array.
| null |
63c6478f5f004bf4898cf4c3 | 2023-01-18T01:28:32.815Z | General Question | v1 | How do I use fgets on an int | null | null | null |
63c6478f5f004bf4898cf4c3 | 2023-01-18T01:38:04.293Z | General Question | v1 | Your task is to write a C program called phone_loop.c. This program will again read from standard input using scanf and take no command-line arguments. Similar to phone.c, this program reads a 10-character string as the first input value but then it repeatedly reads integers until standard input is closed. (Hint: Use a while loop that checks the return value of scanf to accomplish this. Check the man page for scanf to determine the return value when the input stream is closed.)
After each integer the output produced is as before:
if the integer is -1, the full string is printed
if the integer is between 0 and 9, the individual character at that position is printed
if the integer is less than -1 or greater than 9, the message "ERROR" is printed (to stdout)
In each case the printing is followed by a newline character.
When the program finishes running, main returns with a 0 return code if there were no errors and with a 1 return code otherwise.
Note: the program must not print anything other than then the values specified. | null | null | null |
63c6478f5f004bf4898cf4c3 | 2023-01-18T01:39:23.705Z | Help Write Code | v1 | null | null | null | Your task is to write a C program called phone_loop.c. This program will again read from standard input using scanf and take no command-line arguments. Similar to phone.c, this program reads a 10-character string as the first input value but then it repeatedly reads integers until standard input is closed. (Hint: Use a while loop that checks the return value of scanf to accomplish this. Check the man page for scanf to determine the return value when the input stream is closed.)
After each integer the output produced is as before:
if the integer is -1, the full string is printed
if the integer is between 0 and 9, the individual character at that position is printed
if the integer is less than -1 or greater than 9, the message "ERROR" is printed (to stdout)
In each case the printing is followed by a newline character.
When the program finishes running, main returns with a 0 return code if there were no errors and with a 1 return code otherwise.
Note: the program must not print anything other than then the values specified. |
63c6478f5f004bf4898cf4c3 | 2023-01-18T02:00:04.785Z | Help Fix Code | v1 | null | // Your task is to write a small C program called phone.c that uses scanf to read two values from standard input.
#include <stdio.h>
int main() {
char phone[11];
printf("Type in a phone number:\n");
fgets(phone, 11, stdin);
int number;
printf("Type in a number:\n");
scanf("%d", &number);
if (number == -1){
printf("%s\n", phone);
}
else if ((0 <= number)&&(number <= 9)){
printf("%d\n", phone[number]);
}
else {
printf("ERROR");
return 1;
}
return 0;
} | Your task is to write a small C program called phone.c that uses scanf to read two values from standard input. The first is a 10 character string and the second is an integer. The program takes no command-line arguments. (You will write this program from scratch, so remember to add, commit, and push.)
If the integer is -1, the program prints the full string to stdout. If the integer i is between 0 and 9, the program prints only the corresponding character (i.e., at index i) from the string to stdout. In both of these cases the program returns 0.
If the integer is less than -1 or greater than 9, the program prints the message "ERROR" to stdout and returns 1. | null |
63c6478f5f004bf4898cf4c3 | 2023-01-18T02:02:04.096Z | Help Fix Code | v1 | null | // Your task is to write a small C program called phone.c that uses scanf to read two values from standard input.
#include <stdio.h>
int main() {
char phone[11];
printf("Type in a phone number:\n");
fgets(phone, 11, stdin);
int number;
printf("Type in a number:\n");
scanf("%d", &number);
if (number == -1){
printf("%s\n", phone);
}
else if ((0 <= number)&&(number <= 9)){
printf("%d\n", phone[number]);
}
else {
printf("ERROR");
return 1;
}
return 0;
} | It is supposed to print the digit of the phone number corresponding to the variable number | null |
63c6478f5f004bf4898cf4c3 | 2023-01-26T08:20:21.698Z | Help Fix Code | v1 | null | int main(int argc, char** argv) {
if (!(argc == 2 || argc == 3)) {
fprintf(stderr, "USAGE: count_large size [permissions]\n");
return 1;
}
// TODO: Process command line arguments.
char* perms = argv[0];
int sizeLimit = stol(argv[1])
// TODO: Call check_permissions as part of your solution to count the files to
// compute and print the correct value.
char permissions[10];
int links;
char owner[30];
char group[30];
int size;
char dateMonth[10];
int dateDay;
char dateTime[20];
char file_name[10];
scanf();
int biggerFiles = 0;
while (scanf("%s %d %s %s %d %s %d %s %s", permissions, links, owner, group, size, dateMonth, dateDay, dateTime, file_name) == 9) {
if (size > sizeLimit) {
if (check_permissions(perms, permissions)) {
biggerFiles++;
}
}
}
printf("%d", biggerFiles);
return 0;
} | work | null |
63c6478f5f004bf4898cf4c3 | 2023-01-26T08:22:06.102Z | Help Fix Code | v1 | null | #include <stdio.h>
#include <stdlib.h>
// TODO: Implement a helper named check_permissions that matches the prototype below.
int check_permissions(char *, char *){
};
int main(int argc, char** argv) {
if (!(argc == 2 || argc == 3)) {
fprintf(stderr, "USAGE: count_large size [permissions]\n");
return 1;
}
// TODO: Process command line arguments.
char* perms = argv[0];
int sizeLimit = stol(argv[1])
// TODO: Call check_permissions as part of your solution to count the files to
// compute and print the correct value.
char permissions[10];
int links;
char owner[30];
char group[30];
int size;
char dateMonth[10];
int dateDay;
char dateTime[20];
char file_name[10];
scanf();
int biggerFiles = 0;
while (scanf("%s %d %s %s %d %s %d %s %s", permissions, links, owner, group, size, dateMonth, dateDay, dateTime, file_name) == 9) {
if (size > sizeLimit) {
if (check_permissions(perms, permissions)) {
biggerFiles++;
}
}
}
printf("%d", biggerFiles);
return 0;
} | work | null |
63c6478f5f004bf4898cf4c3 | 2023-01-26T08:32:15.548Z | Help Fix Code | v1 | null | #include <stdio.h>
#include <stdlib.h>
// TODO: Implement a helper named check_permissions that matches the prototype below.
int check_permissions(char *perm1, char *perm2){
for(int i = 0; i < 10; i++){
if (perm1[i] == '-'){
continue;
}
if (perm1[i] != perm2[i]){
return 0;
}
}
return 1;
};
int main(int argc, char** argv) {
if (!(argc == 2 || argc == 3)) {
fprintf(stderr, "USAGE: count_large size [permissions]\n");
return 1;
}
// TODO: Process command line arguments.
char* perms = argv[0];
int sizeLimit = stol(argv[1])
// TODO: Call check_permissions as part of your solution to count the files to
// compute and print the correct value.
char permissions[10];
int links;
char owner[30];
char group[30];
int size;
char dateMonth[10];
int dateDay;
char dateTime[20];
char file_name[10];
scanf();
int biggerFiles = 0;
while (scanf("%s %d %s %s %d %s %d %s %s", &permissions, &links, &owner, &group, &size, &dateMonth, &dateDay, &dateTime, &file_name) == 9) {
if (size > sizeLimit) {
if (check_permissions(perms, permissions)) {
biggerFiles++;
}
}
}
printf("%d", biggerFiles);
return 0;
}
| work | null |
63c6478f5f004bf4898cf4c3 | 2023-01-26T08:37:57.638Z | Help Fix Code | v1 | null | #include <stdio.h>
#include <stdlib.h>
// TODO: Implement a helper named check_permissions that matches the prototype below.
int check_permissions(char *perm1, char *perm2){
for(int i = 0; i < 10; i++){
if (perm1[i] == '-'){
continue;
}
if (perm1[i] != perm2[i]){
return 0;
}
}
return 1;
};
int main(int argc, char** argv) {
if (!(argc == 2 || argc == 3)) {
fprintf(stderr, "USAGE: count_large size [permissions]\n");
return 1;
}
// TODO: Process command line arguments.
char *perms = argv[0];
int sizeLimit = atol(argv[1]);
// TODO: Call check_permissions as part of your solution to count the files to
// compute and print the correct value.
char *permissions[10];
int links;
char owner[30];
char group[30];
int size;
char dateMonth[10];
int dateDay;
char dateTime[20];
char file_name[10];
scanf();
int biggerFiles = 0;
while (scanf("%s %d %s %s %d %s %d %s %s", *permissions, &links, &owner, &group, &size, &dateMonth, &dateDay, &dateTime, &file_name) == 9) {
if (size > sizeLimit) {
if (check_permissions(perms, permissions)) {
biggerFiles++;
}
}
}
printf("%d", biggerFiles);
return 0;
}
| work | null |
63c6478f5f004bf4898cf4c3 | 2023-01-26T08:44:04.822Z | Help Fix Code | v1 | null | #include <stdio.h>
#include <stdlib.h>
// TODO: Implement a helper named check_permissions that matches the prototype below.
int check_permissions(char *perm1, char *perm2){
for(int i = 0; i < 10; i++){
if (perm1[i] == '-'){
continue;
}
if (perm1[i] != perm2[i]){
return 0;
}
}
return 1;
};
int main(int argc, char** argv) {
if (!(argc == 2 || argc == 3)) {
fprintf(stderr, "USAGE: count_large size [permissions]\n");
return 1;
}
// TODO: Process command line arguments.
char *perms = argv[0];
int sizeLimit = atol(argv[1]);
// TODO: Call check_permissions as part of your solution to count the files to
// compute and print the correct value.
char permissions[10];
int links;
char owner[30];
char group[30];
int size;
char dateMonth[10];
int dateDay;
char dateTime[20];
char file_name[10];
scanf();
int biggerFiles = 0;
while (scanf("%s %d %s %s %d %s %d %s %s", permissions, links, owner, group, size, dateMonth, dateDay, dateTime, file_name) == 9) {
if (size > sizeLimit) {
if (check_permissions(perms, permissions)) {
biggerFiles++;
}
}
}
printf("%d", biggerFiles);
return 0;
}
| work | null |
63c6478f5f004bf4898cf4c3 | 2023-01-26T09:00:10.833Z | Help Fix Code | v1 | null | #include <stdio.h>
#include <stdlib.h>
// TODO: Implement a helper named check_permissions that matches the prototype below.
int check_permissions(char *perm1, char *perm2){
for(int i = 0; i < 10; i++){
if (perm1[i] == '-'){
continue;
}
if (perm1[i] != perm2[i]){
return 0;
}
}
return 1;
};
int main(int argc, char** argv) {
if (!(argc == 2 || argc == 3)) {
fprintf(stderr, "USAGE: count_large size [permissions]\n");
return 1;
}
// TODO: Process command line arguments.
char perms[10];
int sizeLimit = atol(argv[1]);
// TODO: Call check_permissions as part of your solution to count the files to
// compute and print the correct value.
if (argc == 2) {
*perms = "---------";
} else {
for (int i = 0; i < 9; i++) {
perms[i] = argv[2][i];
}
}
char permissions[10];
int links;
char owner[30];
char group[30];
int size;
char dateMonth[10];
int dateDay;
char dateTime[20];
char file_name[10];
scanf("%s %d");
int biggerFiles = 0;
while (scanf("%s %*d %s %s %*d %s %*d %s %s", permissions, links, owner, group, size, dateMonth, dateDay, dateTime, file_name) == 9) {
if (size > sizeLimit) {
if (check_permissions(perms, permissions)) {
biggerFiles++;
}
}
}
printf("%d", biggerFiles);
return 0;
}
| work | null |
63c6478f5f004bf4898cf4c3 | 2023-01-26T09:24:56.902Z | Help Fix Code | v1 | null | #include <stdio.h>
#include <stdlib.h>
// TODO: Implement a helper named check_permissions that matches the prototype below.
int check_permissions(char *perm1, char *perm2){
for(int i = 0; i < 10; i++){
if (perm2[i] == '-'){
continue;
}
if (perm1[i] != perm2[i]){
return 0;
}
}
return 1;
};
int main(int argc, char** argv) {
if (!(argc == 2 || argc == 3)) {
fprintf(stderr, "USAGE: count_large size [permissions]\n");
return 1;
}
// TODO: Process command line arguments.
char *perms = "----------";
int sizeLimit = atol(argv[1]);
// TODO: Call check_permissions as part of your solution to count the files to
// compute and print the correct value.
if (argc == 3) {
for (int i = 0; i < 10; i++) {
perms[i] = argv[2][i];
}
}
char *permissions = malloc(10 * sizeof(char));
int size;
scanf("%*s %*d");
int biggerFiles = 0;
while (scanf("%s %*d %*s %*s %d %*s %*d %*s %*s", permissions, &size) == 2) {
if (size > sizeLimit) {
if (check_permissions(permissions, perms)) {
biggerFiles++;
}
}
}
printf("%d \n", biggerFiles);
return 0;
}
| work | null |
63c6478f5f004bf4898cf4c3 | 2023-01-26T17:46:54.384Z | General Question | v1 | How do I use functions defined in another file? | null | null | null |
63c6478f5f004bf4898cf4c3 | 2023-02-01T00:24:21.321Z | General Question | v1 | When do I use -> vs .
| null | null | null |
63c6478f5f004bf4898cf4c3 | 2023-02-01T00:25:35.178Z | General Question | v1 | When do I use -> vs . ? Provide examples | null | null | null |
63c6478f5f004bf4898cf4c3 | 2023-02-08T01:27:13.157Z | Help Write Code | v1 | null | null | null | Read in pixel array by following these instructions:
*
* 1. First, allocate space for m `struct pixel *` values, where m is the
* height of the image. Each pointer will eventually point to one row of
* pixel data.
* 2. For each pointer you just allocated, initialize it to point to
* heap-allocated space for an entire row of pixel data.
* 3. Use the given file and pixel_array_offset to initialize the actual
* struct pixel values. Assume that `sizeof(struct pixel) == 3`, which is
* consistent with the bitmap file format.
* NOTE: We've tested this assumption on the Teaching Lab machines, but
* if you're trying to work on your own computer, we strongly recommend
* checking this assumption!
* 4. Return the address of the first `struct pixel *` you initialized. |
63c6478f5f004bf4898cf4c3 | 2023-02-08T01:29:21.598Z | Help Write Code | v1 | null | null | null | Read in pixel array by following these instructions:
1. First, allocate space for m `struct pixel *` values, where m is the height of the image. Each pointer will eventually point to one row of pixel data.
2. For each pointer you just allocated, initialize it to point to heap-allocated space for an entire row of pixel data.
3. Use the given file and pixel_array_offset to initialize the actual struct pixel values. Assume that `sizeof(struct pixel) == 3`, which is consistent with the bitmap file format.
4. Return the address of the first `struct pixel *` you initialized. |
63c6478f5f004bf4898cf4c3 | 2023-02-25T22:04:09.792Z | General Question | v1 | What are default values for variables in C
| null | null | null |
63c6478f5f004bf4898cf4c3 | 2023-02-25T22:08:02.997Z | General Question | v1 | Does a program terminate when main returns? Justify your answer. | null | null | null |
63c6478f5f004bf4898cf4c3 | 2023-02-27T22:50:22.460Z | Question from Code | v1 | Does this work | int** code = {{0, 1}, {1, 2}};
int num = code[0][0];
int*** codeptr = &# | null | null |
63c6478f5f004bf4898cf4c3 | 2023-02-27T22:50:50.246Z | Question from Code | v1 | Why doesn't this work | int** code = {{0, 1}, {1, 2}};
int num = code[0][0];
int*** codeptr = &# | null | null |
63c6478f5f004bf4898cf4c3 | 2023-02-27T22:51:38.260Z | Question from Code | v1 | Why is line 3 invalid? Explain using 3-5 sentences. | int** code[2][2] = {{0, 1}, {1, 2}};
int num = code[0][0];
int*** codeptr = &# | null | null |
63c6478f5f004bf4898cf4c3 | 2023-02-27T22:52:11.838Z | Question from Code | v1 | Does this work? Explain in 3-5 sentences. | int** code[2][2] = {{0, 1}, {1, 2}};
int num = code[0][0];
int** codeptr = &# | null | null |
63c6478f5f004bf4898cf4c3 | 2023-02-27T22:52:49.150Z | Question from Code | v1 | Does this work? | int code[2][2] = {{0, 1}, {1, 2}};
int num = code[0][0];
int** codeptr = &# | null | null |
63c6478f5f004bf4898cf4c3 | 2023-02-27T22:53:36.183Z | Question from Code | v1 | Explain why this code does not work in 3-5 sentences. | int code[2][2] = {{0, 1}, {1, 2}};
int num = code[0][0];
int** codeptr = &# | null | null |
63c6478f5f004bf4898cf4c3 | 2023-02-27T22:54:04.553Z | Question from Code | v1 | Does this work? | int code[2][2] = {{0, 1}, {1, 2}};
int num = code[0][0];
int** codeptr = &&# | null | null |
63c6478f5f004bf4898cf4c3 | 2023-02-27T22:54:29.353Z | General Question | v1 | Can I ever have 2 or more & in a row? | null | null | null |
63c6478f5f004bf4898cf4c3 | 2023-03-08T02:14:16.379Z | Help Fix Code | v1 | null | #include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/wait.h>
#define MAXLINE 256
#define SUCCESS "Password verified\n"
#define INVALID "Invalid password\n"
#define NO_USER "No such user\n"
/*
Your task is to complete checkpasswd.c, which reads a user id and password from stdin,
creates a new process to run the validate program, sends it the user id and password,
and prints a message to stdout reporting whether the validation is successful.
Your program should use the exit status of the validate program to determine which of
the three following messages to print:
"Password verified" if the user id and password match.
"Invalid password" if the user id exists, but the password does not match.
"No such user" if the user id is not recognized
The exact messages are given in the starter code as defined constants.
The only case that should be handled directly in checkpasswd is the case where either the
userid or password are too long. This is to prevent sending the wrong number of bytes to validate.
Note that in the given password file pass.txt, the "killerwhales:swim" has a user id that
is too large, and "monkeys:eatcoconuts" has a password that is too long. The examples are expected
to fail, but the other cases should work correctly.
You will find the following system calls useful: fork, exec, pipe, dup2, write, wait (along with
WIFEXITED, WEXITSTATUS). You may not use popen or pclose in your solution.
Important: execl arguments
Week 7 Video 6 "Running Different Programs" demonstrates a version of execl that takes only two
arguments. The signature for execl is:
int execl(const char *path, const char *arg0, ... *, (char *)NULL );
In the video, the execl call only passed two arguments (execl("./hello", NULL)), but that shortcut
doesn't work on teach.cs. Instead, you need to pass the middle argument (respresenting argv[0])
explicitly: execl(".hello", "hello", NULL).
Let's consider two more examples. If you want to call the executable ./giant with the arguments fee fi fo,
you would do it like this: execl(".giant", "giant", "fee", "fi", "fo", NULL); If you want to call ./giant
with no arguments you would call it like this: execl(".giant", "giant", NULL);
*/
int main(void)
{
char user_id[MAXLINE];
char password[MAXLINE];
/* The user will type in a user name on one line followed by a password
on the next.
DO NOT add any prompts. The only output of this program will be one
of the messages defined above.
Please read the comments in validate carefully
*/
if (fgets(user_id, MAXLINE, stdin) == NULL)
{
perror("fgets");
exit(1);
}
if (fgets(password, MAXLINE, stdin) == NULL)
{
perror("fgets");
exit(1);
}
if (strlen(user_id) > MAXLINE || strlen(password) > MAXLINE)
{
exit(1);
}
int fd[2];
pipe(fd);
pid_t pid = fork();
if (pid < 0)
{
perror("fork");
exit(1);
}
else if (pid == 0)
{
dup2(fd[1], STDOUT_FILENO);
close(fd[0]);
close(fd[1]);
execl("./validate", "validate", user_id, password, NULL);
perror("execl");
exit(1);
}
else
{
int status;
wait(&status);
int exit_status = WEXITSTATUS(status);
switch (exit_status)
{
case 0:
printf(SUCCESS);
break;
case 1:
printf(INVALID);
break;
case 2:
printf(INVALID);
break;
case 3:
printf(NO_USER);
break;
default:
fprintf(stderr, "Unknown exit status: %d\n", exit_status);
exit(1);
}
}
return 0;
} | Your task is to complete checkpasswd.c, which reads a user id and password from stdin,
creates a new process to run the validate program, sends it the user id and password,
and prints a message to stdout reporting whether the validation is successful.
Your program should use the exit status of the validate program to determine which of
the three following messages to print:
"Password verified" if the user id and password match.
"Invalid password" if the user id exists, but the password does not match.
"No such user" if the user id is not recognized
The exact messages are given in the starter code as defined constants.
The only case that should be handled directly in checkpasswd is the case where either the
userid or password are too long. This is to prevent sending the wrong number of bytes to validate.
Note that in the given password file pass.txt, the "killerwhales:swim" has a user id that
is too large, and "monkeys:eatcoconuts" has a password that is too long. The examples are expected
to fail, but the other cases should work correctly.
You will find the following system calls useful: fork, exec, pipe, dup2, write, wait (along with
WIFEXITED, WEXITSTATUS). You may not use popen or pclose in your solution.
Important: execl arguments
Week 7 Video 6 "Running Different Programs" demonstrates a version of execl that takes only two
arguments. The signature for execl is:
int execl(const char *path, const char *arg0, ... *, (char *)NULL );
In the video, the execl call only passed two arguments (execl("./hello", NULL)), but that shortcut
doesn't work on teach.cs. Instead, you need to pass the middle argument (respresenting argv[0])
explicitly: execl(".hello", "hello", NULL).
Let's consider two more examples. If you want to call the executable ./giant with the arguments fee fi fo,
you would do it like this: execl(".giant", "giant", "fee", "fi", "fo", NULL); If you want to call ./giant
with no arguments you would call it like this: execl(".giant", "giant", NULL);
*/
int main(void)
{
char user_id[MAXLINE];
char password[MAXLINE];
/* The user will type in a user name on one line followed by a password
on the next.
DO NOT add any prompts. The only output of this program will be one
of the messages defined above.
Please read the comments in validate carefully
| null |
63c6478f5f004bf4898cf4c3 | 2023-03-08T02:15:09.790Z | Question from Code | v1 | why doesn't this work? | #include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/wait.h>
#define MAXLINE 256
#define SUCCESS "Password verified\n"
#define INVALID "Invalid password\n"
#define NO_USER "No such user\n"
/*
Your task is to complete checkpasswd.c, which reads a user id and password from stdin,
creates a new process to run the validate program, sends it the user id and password,
and prints a message to stdout reporting whether the validation is successful.
Your program should use the exit status of the validate program to determine which of
the three following messages to print:
"Password verified" if the user id and password match.
"Invalid password" if the user id exists, but the password does not match.
"No such user" if the user id is not recognized
The exact messages are given in the starter code as defined constants.
The only case that should be handled directly in checkpasswd is the case where either the
userid or password are too long. This is to prevent sending the wrong number of bytes to validate.
Note that in the given password file pass.txt, the "killerwhales:swim" has a user id that
is too large, and "monkeys:eatcoconuts" has a password that is too long. The examples are expected
to fail, but the other cases should work correctly.
You will find the following system calls useful: fork, exec, pipe, dup2, write, wait (along with
WIFEXITED, WEXITSTATUS). You may not use popen or pclose in your solution.
Important: execl arguments
Week 7 Video 6 "Running Different Programs" demonstrates a version of execl that takes only two
arguments. The signature for execl is:
int execl(const char *path, const char *arg0, ... *, (char *)NULL );
In the video, the execl call only passed two arguments (execl("./hello", NULL)), but that shortcut
doesn't work on teach.cs. Instead, you need to pass the middle argument (respresenting argv[0])
explicitly: execl(".hello", "hello", NULL).
Let's consider two more examples. If you want to call the executable ./giant with the arguments fee fi fo,
you would do it like this: execl(".giant", "giant", "fee", "fi", "fo", NULL); If you want to call ./giant
with no arguments you would call it like this: execl(".giant", "giant", NULL);
*/
int main(void)
{
char user_id[MAXLINE];
char password[MAXLINE];
/* The user will type in a user name on one line followed by a password
on the next.
DO NOT add any prompts. The only output of this program will be one
of the messages defined above.
Please read the comments in validate carefully
*/
if (fgets(user_id, MAXLINE, stdin) == NULL)
{
perror("fgets");
exit(1);
}
if (fgets(password, MAXLINE, stdin) == NULL)
{
perror("fgets");
exit(1);
}
if (strlen(user_id) > MAXLINE || strlen(password) > MAXLINE)
{
exit(1);
}
int fd[2];
pipe(fd);
pid_t pid = fork();
if (pid < 0)
{
perror("fork");
exit(1);
}
else if (pid == 0)
{
dup2(fd[1], STDOUT_FILENO);
close(fd[0]);
close(fd[1]);
execl("./validate", "validate", user_id, password, NULL);
perror("execl");
exit(1);
}
else
{
int status;
wait(&status);
int exit_status = WEXITSTATUS(status);
switch (exit_status)
{
case 0:
printf(SUCCESS);
break;
case 1:
printf(INVALID);
break;
case 2:
printf(INVALID);
break;
case 3:
printf(NO_USER);
break;
default:
fprintf(stderr, "Unknown exit status: %d\n", exit_status);
exit(1);
}
}
return 0;
} | null | null |
63c6478f5f004bf4898cf4c3 | 2023-03-15T04:53:28.948Z | Help Fix Code | v2 | work | #include<stdio.h>#include<stdlib.h>#include<string.h>#include"pmake.h"Rule*parse_file(FILE*fp){Rule*rules=makeRule();Rule*cur=rules;Action*cur_act=makeAction();Dependency*cur_dep=makeDependency();char*line=malloc(sizeof(char*)*MAXLINE);while(fgets(line,sizeof(MAXLINE),fp)){if(is_comment_or_empty(line)){continue;}char**args=parseLine(line);if(line[0]=='\t'){Action*cur_act=cur->actions;while(cur_act->next_act!=NULL){cur_act=cur_act->next_act;}cur_act->next_act=malloc(sizeof(Action));cur_act->next_act=makeAction();cur_act->next_act->args=args;}else{Rule*cur=rules;while(cur->next_rule!=NULL){cur=cur->next_rule;}for(inti=0;i<sizeof(args);i++){Rule*searchRule=rules;cur_dep=cur->dependencies;while(searchRule->next_rule!=NULL){if(strcmp(searchRule->target,args[i])==0){if(i==0){cur=searchRule;break;}elseif(i>=2){while(cur_dep->next_dep!=NULL){cur_dep=cur_dep->next_dep;}cur_dep->rule=searchRule;cur_dep->next_dep=makeDependency();cur_dep=cur_dep->next_dep;break;}}searchRule=searchRule->next_rule;}if(searchRule->next_rule==NULL){if(i==0){Rule*oldcur=cur;cur->target=args[0];cur->dependencies=makeDependency();cur_dep=cur->dependencies;cur->actions=makeAction();for(intj=2;j<sizeof(args);j++){cur_dep->rule=makeRule();cur_dep->rule->target=args[j];cur_dep->next_dep=makeDependency();cur_dep=cur_dep->next_dep;cur->next_rule=cur_dep->rule;cur=cur->next_rule;}cur->next_rule=makeRule();cur=oldcur;break;}elseif(i>=2){Rule*newcur=rules;while(newcur->next_rule!=NULL){newcur=newcur->next_rule;}Rule*new_rule=makeRule();new_rule->target=args[i];newcur->next_rule=new_rule;cur_dep->rule=new_rule;cur_dep->next_dep=makeDependency();cur_dep=cur_dep->next_dep;break;}}}}}returnrules;} | null | null |
63c6478f5f004bf4898cf4c3 | 2023-03-15T04:56:43.280Z | Help Fix Code | v2 | work | Rule *parse_file(FILE *fp) {
Rule *rules = makeRule();
Rule *cur = rules;
Action *cur_act = makeAction();
Dependency *cur_dep = makeDependency();
char *line = malloc(sizeof(char*) * MAXLINE);
while (fgets(line, sizeof(MAXLINE), fp)) {
if (is_comment_or_empty(line)) {
continue;
}
char** args = parseLine(line);
if (line[0] == '\t') {
Action *cur_act = cur->actions;
while (cur_act->next_act != NULL) {
cur_act = cur_act->next_act;
}
cur_act->next_act = malloc(sizeof(Action));
cur_act->next_act = makeAction();
cur_act->next_act->args = args;
}
else {
Rule *cur = rules;
while (cur->next_rule != NULL) {
cur = cur->next_rule;
}
for (int i = 0; i < sizeof(args); i++) {
Rule *searchRule = rules;
cur_dep = cur->dependencies;
while (searchRule->next_rule != NULL) {
if (strcmp(searchRule->target, args[i]) == 0) {
if (i == 0){
cur = searchRule;
break;
}
else if (i >= 2) {
while (cur_dep->next_dep != NULL) {
cur_dep = cur_dep->next_dep;
}
cur_dep->rule = searchRule;
cur_dep->next_dep = makeDependency();
cur_dep = cur_dep->next_dep;
break;
}
}
searchRule = searchRule->next_rule;
}
if (searchRule->next_rule == NULL) {
if (i == 0){
Rule *oldcur = cur;
cur->target = args[0];
cur->dependencies = makeDependency();
cur_dep = cur->dependencies;
cur->actions = makeAction();
for (int j = 2; j < sizeof(args); j++) {
cur_dep->rule = makeRule();
cur_dep->rule->target = args[j];
cur_dep->next_dep = makeDependency();
cur_dep = cur_dep->next_dep;
cur->next_rule = cur_dep->rule;
cur = cur->next_rule;
}
cur->next_rule = makeRule();
cur = oldcur;
break;
}
else if (i >= 2) {
Rule *newcur = rules;
while (newcur->next_rule != NULL) {
newcur = newcur->next_rule;
}
Rule *new_rule = makeRule();
new_rule->target = args[i];
newcur->next_rule = new_rule;
cur_dep->rule = new_rule;
cur_dep->next_dep = makeDependency();
cur_dep = cur_dep->next_dep;
break;
}
}
}
}
}
return rules;
} | null | null |
63c6478f5f004bf4898cf4c3 | 2023-03-15T04:58:16.755Z | Explain Code | v2 | null | Rule *parse_file(FILE *fp) {
Rule *rules = makeRule();
Rule *cur = rules;
Action *cur_act = makeAction();
Dependency *cur_dep = makeDependency();
char *line = malloc(sizeof(char *) * MAXLINE);
while (fgets(line, sizeof(MAXLINE), fp)) {
if (is_comment_or_empty(line)) {
continue;
}
char **args = parseLine(line);
if (line[0] == '\t') {
Action *cur_act = cur->actions;
while (cur_act->next_act != NULL) {
cur_act = cur_act->next_act;
}
cur_act->next_act = malloc(sizeof(Action));
cur_act->next_act = makeAction();
cur_act->next_act->args = args;
} else {
Rule *cur = rules;
while (cur->next_rule != NULL) {
cur = cur->next_rule;
}
for (int i = 0; i < sizeof(args); i++) {
Rule *searchRule = rules;
cur_dep = cur->dependencies;
while (searchRule->next_rule != NULL) {
if (strcmp(searchRule->target, args[i]) == 0) {
if (i == 0) {
cur = searchRule;
break;
} else if (i >= 2) {
while (cur_dep->next_dep != NULL) {
cur_dep = cur_dep->next_dep;
}
cur_dep->rule = searchRule;
cur_dep->next_dep = makeDependency();
cur_dep = cur_dep->next_dep;
break;
}
}
searchRule = searchRule->next_rule;
}
if (searchRule->next_rule == NULL) {
if (i == 0) {
Rule *oldcur = cur;
cur->target = args[0];
cur->dependencies = makeDependency();
cur_dep = cur->dependencies;
cur->actions = makeAction();
for (int j = 2; j < sizeof(args); j++) {
cur_dep->rule = makeRule();
cur_dep->rule->target = args[j];
cur_dep->next_dep = makeDependency();
cur_dep = cur_dep->next_dep;
cur->next_rule = cur_dep->rule;
cur = cur->next_rule;
}
cur->next_rule = makeRule();
cur = oldcur;
break;
} else if (i >= 2) {
Rule *newcur = rules;
while (newcur->next_rule != NULL) {
newcur = newcur->next_rule;
}
Rule *new_rule = makeRule();
new_rule->target = args[i];
newcur->next_rule = new_rule;
cur_dep->rule = new_rule;
cur_dep->next_dep = makeDependency();
cur_dep = cur_dep->next_dep;
break;
}
}
}
}
}
return rules;
} | null | null |
63c6478f5f004bf4898cf4c3 | 2023-03-15T05:04:03.404Z | Help Fix Code | v2 | char** parseLine(char* line) {
// Parse the line
char** args = malloc(sizeof(char**));
char* arg = strtok(line, " ");
// Parse the arguments and add them to args
while (arg != NULL) {
args = realloc(args, sizeof(char**) * (sizeof(args) + 1));
args[sizeof(args)] = arg;
arg = strtok(NULL, " ");
}
return args;
} | null | null |
|
63c6478f5f004bf4898cf4c3 | 2023-03-15T05:05:22.246Z | Help Fix Code | v2 | This should read the characters from line and generate an array of strings, one per argument | char** parseLine(char* line) {
// Parse the line
char** args = malloc(sizeof(char**));
char* arg = strtok(line, " ");
// Parse the arguments and add them to args
while (arg != NULL) {
args = realloc(args, sizeof(char**) * (sizeof(args) + 1));
args[sizeof(args)] = arg;
arg = strtok(NULL, " ");
}
return args;
} | null | null |
63c6478f5f004bf4898cf4c3 | 2023-03-15T05:10:07.536Z | Help Fix Code | v2 | Split the strings in line into an array using spaces and return a list of strings | char** parseLine(char* line) {
// Parse the line
char** args = malloc(sizeof(char*));
char* arg = strtok(line, " ");
// Parse the arguments and add them to args
int i = 0;
while (arg != NULL) {
args[i] = malloc(strlen(arg) + 1);
strcpy(args[i], arg);
i++;
args = realloc(args, sizeof(char*) * (i + 1));
arg = strtok(NULL, " ");
}
args[i] = NULL;
return args;
} | null | null |
63c6478f5f004bf4898cf4c3 | 2023-03-15T06:25:48.812Z | Help Fix Code | v2 | Does this work? | cur_dep->rule = makeRule();
cur->next_rule = cur_dep->rule;
cur = cur->next_rule; | null | null |
63c6478f5f004bf4898cf4c3 | 2023-04-05T05:44:17.297Z | Help Fix Code | v2 | compile | char* list_users(const User *curr) {
const User *og_user = curr;
char *user_list = NULL;
int size = 11;
while (curr != NULL) {
size += strlen(curr->name) + 3;
curr = curr->next;
}
user_list = malloc(sizeof(char)*size);
if (user_list == NULL) {
perror("malloc");
exit(1);
}
else {
strcat(user_list, "User List\r\n");
curr = og_user;
while (curr != NULL) {
strcat(user_list, "\t");
strcat(user_list, curr->name);
strcat(user_list, "\r\n");
curr = curr->next;
}
}
return user_list;
} | null | null |
63c6478f5f004bf4898cf4c3 | 2023-04-25T20:20:54.854Z | General Question | v2 | how do i do stuff for sockets | null | null | null |
63c647905f004bf4898cf4cd | 2023-02-08T02:13:13.970Z | General Question | v1 | When I call gcc on a c file in the terminal, what file type is the output?
| null | null | null |
63c647945f004bf4898cf4e6 | 2023-01-17T18:13:54.207Z | General Question | v1 | what is a pointer variable? | null | null | null |