1
0
mirror of https://gitlab.com/klmp200/fish.git synced 2024-11-14 04:43:20 +00:00
fish/fish_shell/fish_globbing.c

365 lines
6.9 KiB
C

// Created by Arthur Amalvy
#include <stdio.h>
#include <stdlib.h>
#include <dirent.h>
#include <string.h>
#include "fish_core.h"
#include "fish_globbing.h"
WordList * fishExpand(WordList *wordList) {
if(wordList->size > 1){
int i;
WordList* newWordList = createWordList();// creating the list to return
if(newWordList == NULL){//crash when the allocation is unsuccessful
crash();
}
addEndWordList(newWordList, wordList->first->word);//copy the command into the returning word list
WordListElement* tempElement = wordList->first->next; //temporary nav element
for(i=1; i<wordList->size; i++){
//TODO : optimize the stringContains() function to test for a list of characters
//test if we have to expand a string or not, for optimization purposes
if(stringContains(tempElement->word, '*') || stringContains(tempElement->word, '?')){
concatWordList(newWordList, expandWord(tempElement->word));
}
//If we dont have to expand, add the current word unchanged to the new list
else{
addEndWordList(newWordList, tempElement->word);
}
tempElement = tempElement->next;
}
freeWordList(wordList);
//TODO : move this in recursion in case multiples commands are in the same line
if(newWordList->size == 1){
addEndWordList(newWordList, (char*) ERROR_STRING);
}
return newWordList;
}
else return wordList;
}
WordList* expandWord(char* path){
if(!stringContains(path, '/')){
return getFiles((char*) "./", path);
}
else{
WordList* expandedList = createWordList();
recursiveExpandWord(path, expandedList);
return expandedList;
}
}
void recursiveExpandWord(char* path, WordList* listToExpand){
int lastToExpand = 1;
int i = 0;
int indexToExpand = -1;
WordList* pathToList = splitWordIntoList(path, '/');
WordListElement* tempElement; //beware of the size, should be checked before anyway (?)
tempElement = pathToList->first;
while(i < pathToList->size - 1 && indexToExpand == -1){
if(stringContains(tempElement->word, '*') || stringContains(tempElement->word, '?')){
indexToExpand = i;
lastToExpand = 0;
}
i++;
tempElement = tempElement->next;
}
if(lastToExpand){
concatWordList(listToExpand, getFiles(getPath(path), getFileName(path)));
free(pathToList);
}
else{
char* correctedPath = concatWordListToWord(pathToList,0, indexToExpand + 1);
WordList* foundFiles = getFiles(getPath(correctedPath), getFileName(correctedPath));
printWordList(foundFiles);
if(foundFiles->size > 0){
tempElement = foundFiles->first;
char* concatenedEndOfPath = concatWordListToWord(pathToList, indexToExpand + 1, foundFiles->size - 1);
for(i=0; i < foundFiles->size; i++){
tempElement->word = trueStrcat(tempElement->word, concatenedEndOfPath);
recursiveExpandWord(tempElement->word, listToExpand);
tempElement = tempElement->next;
}
free(concatenedEndOfPath);
}
freeWordList(pathToList);
free(correctedPath);
freeWordList(foundFiles);
}
return concatenedString;
}
char* concatWordListToWord(WordList* list,int firstElemIndex, int lastElemIndex){
if(list->size == 0 || list == NULL) crash();
int i;
char* concatenedString = (char*) malloc(sizeof(char));
if(concatenedString == NULL) crash();
concatenedString[0] = '\0';
if(lastElemIndex > list->size -1){
lastElemIndex = list->size - 1;
fprintf(stderr, "fish : Warning : you are a miserable failure, your element is beyond the list. pfff. I corrected it for you.");
}
if(firstElemIndex > lastElemIndex){
firstElemIndex = lastElemIndex;
fprintf(stderr, "fish : Warning : how are you so bad ? your inferior index is superior to your superior index. pfff. I corrected it for you.");
}
WordListElement* tempElement = list->first;
for(i=0; i < firstElemIndex; i++){
tempElement = tempElement->next;
}
for(i=firstElemIndex; i < lastElemIndex; i++){
concatenedString = trueStrcat(concatenedString, tempElement->word);
tempElement = tempElement->next;
}
return concatenedString;
}
char* getFileName(char* string){
if(!stringContains(string, '/')){
return string;
}
else{
int i = 0;
while(string[i] != '/'){
i++;
}
return strndup(string + i + 1, strlen(string) - i);
}
}
//get path of a file
char* getPath(char* string){
if(!stringContains(string, '/')){
return string;
}
else{
int i = strlen(string) - 1;
while(i != -1 && string[i] != '/'){
i = i-1;
}
return strndup(string, i + 1);
}
}
WordList* getFiles(char* path, char* wildcardedString){
DIR* directory;
dirent* dir;
WordList* files = createWordList();
if(files == NULL) crash();
if((directory = opendir(path)) != NULL){
while((dir = readdir(directory)) != NULL){
if(strcmp(dir->d_name, ".") && strcmp(dir->d_name, "..") && wildcardedStringMatches(wildcardedString, dir->d_name)){//sorry strcmp but I dont like you :(
char* filePath = trueStrcat(path, dir->d_name);
addEndWordList(files, filePath);
free(filePath);
}
}
closedir(directory); //YY U LEAK MEMORY ? NOT ON MY WATCH
}
return files;
}
int wildcardedStringMatches(char* string1, char* string2){//TODO
int i = 0;
char tempIChar;
int j = 0;
if(string1 != NULL && string2 != NULL){
while(string1[i] != '\0' && string2[j] != '\0'){
if(string1[i] == '*'){
tempIChar = string1[i+1];
while(string2[j] != tempIChar){
j++;
if(string2[j] == '\0' && tempIChar == '\0'){
return 1;
}
}
i++;
}
if(string1[i] != string2[j] && string1[i] != '?'){
return 0;
}
i++;
j++;
}
if(string1[i] == '\0' && string2[j] == '\0'){
return 1;
}
else{
return 0;
}
}
else{
printf("fish : Warning : fuck you, strings are considered null");
crash();
return 0;
}
}
//beware : will purposedly ignore the first occurence of the character
WordList* splitWordIntoList(char* string, char splitChar){
if(stringContains(string, '/')){
int i = 0;
int mark = 0;
int finished = 0; //boolean
int firstEncounter = 0; //boolean
WordList* newWordList = createWordList();
if(newWordList == NULL) crash();
if(string[0] == '.'){
addEndWordList(newWordList, (char*) ".");
i++;
}
while(!finished){
if(string[i] == splitChar || string[i] == '\0'){
if(!firstEncounter){
firstEncounter = 1;
}
else{
char* tempStr = strndup(string + mark, i - mark);
if(tempStr == NULL){
crash();
}
addEndWordList(newWordList, tempStr);
free(tempStr);
mark = i;
if(string[i] == '\0'){
finished = 1;
}
}
}
i++;
}
return newWordList;
}
else{
WordList* newWordList = createWordList();
addEndWordList(newWordList, string);
return newWordList;
}
}