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mirror of https://gitlab.com/klmp200/fish.git synced 2024-11-14 04:43:20 +00:00
fish/fish_shell/fish_utils.c
2017-05-27 17:36:55 +02:00

306 lines
6.2 KiB
C

//
// Created by Antoine Bartuccio on 15/05/2017.
//
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <pcre.h>
#include "fish_utils.h"
#include "fish_types.h"
void crash(){
char *crashErrors[] = {
(char *) "fish: Fucking malloc always returning NULL pointer !",
(char *) "fish: Error allocating fucking pointer !",
(char *) "fish: C language exploding again",
(char *) "fish: It's not you're fault for this time"
};
int picked = 0;
srand((unsigned int) time(NULL));
picked = rand() % (sizeof(crashErrors) / sizeof(char*));
fprintf(stderr, "%s\n", crashErrors[picked]);
exit(EXIT_FAILURE);
}
char *getInsult(){
static int init = 0;
int picked = 0;
char *insults[] = {
(char *) "Apprend à écrire crétin !",
(char *) "Boloss !",
(char *) "Mois aussi je sais écrire de la merde, pourtant je le fait pas !",
(char *) "Oh ! Une erreur ! Comme ta vie en fait...",
(char *) "Nul !",
(char *) "Pense à aller à l'école un jour",
(char *) "Et après on dit que c'est la faute de l'ordinateur..."
};
if (!init){
srand((unsigned int) time(NULL));
init = 1;
}
picked = rand() % (sizeof(insults) / sizeof(char*));
return insults[picked];
}
void freeWordArray(WordArray *array) {
int i;
if (array != NULL) {
for (i = 0; i < array->size; i++) {
free(array->words[i]);
}
free(array->words);
free(array);
}
}
WordList *createWordList() {
WordList *list = (WordList*) malloc(sizeof(WordList));
if (list == NULL) crash();
else {
list->size = 0;
list->first = NULL;
list->last = NULL;
}
return list;
}
void addEndWordList(WordList *list, char *word) {
WordListElement *new_element = (WordListElement*) malloc(sizeof(WordListElement));
if (new_element == NULL) crash();
else {
new_element->next = NULL;
new_element->previous = list->last;
if (list->size == 0){
list->first = new_element;
list->last = new_element;
} else {
list->last->next = new_element;
list->last = new_element;
}
new_element->word = strdup(word);
list->size++;
}
}
void addBeginWordList(WordList *list, char *word) {
WordListElement *new_element = (WordListElement*) malloc(sizeof(WordListElement));
if (new_element == NULL) crash();
else {
new_element->next = list->first;
new_element->previous = NULL;
if (list->size == 0){
list->first = new_element;
list->last = new_element;
} else {
list->first->previous = new_element;
list->first = new_element;
}
new_element->word = strdup(word);
list->size++;
}
}
void removeWordList(WordList *list) {
if (list != NULL) removeWordListElem(list, list->last);
}
void freeWordList(WordList *list) {
while (list != NULL && list->size != 0)
removeWordList(list);
free(list);
}
void concatWordList(WordList* list1, WordList* list2){//return a sing list containing all elements of both lists
if(list1 == NULL || list2 == NULL){
crash();
}
else if(list2->size != 0){
WordListElement* tempElement = list2->first;
for(int i = 0; i < list2->size; i++){
addEndWordList(list1, tempElement->word);
tempElement = tempElement->next;
}
freeWordList(list2);
}
else{
freeWordList(list2);
}
}
WordArray *wordListToWordArray(WordList *list) {
WordArray *array = (WordArray*) malloc(sizeof(WordArray));
WordListElement *current = list->first;
int i = 0;
if (array == NULL) crash();
else {
array->size = list->size;
array->words = (char **) malloc(sizeof(char *) * (list->size + 1));
if (array->words == NULL) crash();
while (current != NULL){
array->words[i] = strdup(current->word);
current = current->next;
i++;
}
array->words[array->size] = NULL;
}
freeWordList(list);
return array;
}
WordList *wordArrayToWordList(WordArray *array) {
WordList *list = createWordList();
int i;
for (i=0; i<array->size; i++)
addEndWordList(list, array->words[i]);
freeWordArray(array);
return list;
}
void removeWordListElem(WordList *list, WordListElement *elem) {
if (list != NULL && elem != NULL){
if (list->first == elem && list->last == elem){
list->first = NULL;
list->last = NULL;
} else if (list->first == elem){
list->first = elem->next;
elem->previous = NULL;
} else if (list->last == elem){
list->last = elem->previous;
elem->previous->next = NULL;
} else {
elem->next->previous = elem->previous;
elem->previous->next = elem->next;
}
list->size--;
if (elem->word != NULL)
free(elem->word);
free(elem);
}
}
WordList *sliceWordList(WordList *list, int min_index, int max_index) {
WordList *newList = createWordList();
WordListElement *elem = NULL;
WordListElement *tmp = NULL;
int i=0;
if (list == NULL || min_index > list->size || max_index > list->size) return newList;
else {
elem = list->first;
while (i < max_index){
tmp = elem->next;
if (i >= min_index){
addEndWordList(newList, elem->word);
removeWordListElem(list, elem);
}
elem = tmp;
i++;
}
}
return newList;
}
char * splitWord(char * origin, int beginning_index, int size_to_delete){
char * new_word = strdup(origin + beginning_index + size_to_delete);
if (new_word == NULL) crash();
else {
origin[beginning_index] = '\0';
}
return new_word;
}
WordList *splitWordList(WordList *list, char *regex) {
const char* error;
int error_offset;
int ovector[100];
int i = 0;
int rc;
WordList * new_list = NULL;
WordListElement * current = list->first;
pcre *re = pcre_compile(regex, 0, &error, &error_offset, 0);
char *tmp_word = NULL;
if (!re) crash();
while (current != NULL){
rc = pcre_exec(re,
0,
current->word,
(int) strlen(current->word),
0,
0,
ovector,
sizeof(ovector)
);
if(rc >= 0){
new_list = sliceWordList(list, i + 1, list->size);
tmp_word = splitWord(current->word, ovector[0], ovector[1] - ovector[0]);
if (tmp_word[0] != '\0') addBeginWordList(new_list, tmp_word);
if (current->word[0] != '\0') addEndWordList(list, current->word);
removeWordListElem(list, current);
current = NULL;
free(tmp_word);
}
else current = current->next;
i++;
}
pcre_free(re);
return new_list;
}
int stringContains(char * string, char charToTest){
int i = 0;
while(string[i] != '\0'){
if(string[i] == charToTest){
return 1;
}
i++;
}
return 0;
}