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pacman/lib/libalpm/alpm_list.c
Allan McRae f966f3a834 Use size_t for alpm_list sizes
There is a lot of swtiching between size_t and int for alpm_list sizes
in the codebase.   Start converting these to all be size_t by adjusting
the return type of alpm_list_count and fixing all additional warnings
given by -Wconversion that are generated by this change.

Dan: a few more small changes to ensure things compile, adjusting some
printf format string characters to accommodate the larger size on x86_64.

Signed-off-by: Allan McRae <allan@archlinux.org>
Signed-off-by: Dan McGee <dan@archlinux.org>
2011-01-07 21:15:46 -06:00

734 lines
16 KiB
C

/*
* alpm_list.c
*
* Copyright (c) 2006-2011 Pacman Development Team <pacman-dev@archlinux.org>
* Copyright (c) 2002-2006 by Judd Vinet <jvinet@zeroflux.org>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
/* libalpm */
#include "alpm_list.h"
/* check exported library symbols with: nm -C -D <lib> */
#define SYMEXPORT __attribute__((visibility("default")))
#define SYMHIDDEN __attribute__((visibility("internal")))
/**
* @addtogroup alpm_list List Functions
* @brief Functions to manipulate alpm_list_t lists.
*
* These functions are designed to create, destroy, and modify lists of
* type alpm_list_t. This is an internal list type used by libalpm that is
* publicly exposed for use by frontends if desired.
*
* @{ */
/* Allocation */
/**
* @brief Free a list, but not the contained data.
*
* @param list the list to free
*/
void SYMEXPORT alpm_list_free(alpm_list_t *list)
{
alpm_list_t *it = list;
while(it) {
alpm_list_t *tmp = it->next;
free(it);
it = tmp;
}
}
/**
* @brief Free the internal data of a list structure.
*
* @param list the list to free
* @param fn a free function for the internal data
*/
void SYMEXPORT alpm_list_free_inner(alpm_list_t *list, alpm_list_fn_free fn)
{
alpm_list_t *it = list;
while(it) {
if(fn && it->data) {
fn(it->data);
}
it = it->next;
}
}
/* Mutators */
/**
* @brief Add a new item to the end of the list.
*
* @param list the list to add to
* @param data the new item to be added to the list
*
* @return the resultant list
*/
alpm_list_t SYMEXPORT *alpm_list_add(alpm_list_t *list, void *data)
{
alpm_list_t *ptr, *lp;
ptr = calloc(1, sizeof(alpm_list_t));
if(ptr == NULL) {
return(list);
}
ptr->data = data;
ptr->next = NULL;
/* Special case: the input list is empty */
if(list == NULL) {
ptr->prev = ptr;
return(ptr);
}
lp = alpm_list_last(list);
lp->next = ptr;
ptr->prev = lp;
list->prev = ptr;
return(list);
}
/**
* @brief Add items to a list in sorted order.
*
* @param list the list to add to
* @param data the new item to be added to the list
* @param fn the comparison function to use to determine order
*
* @return the resultant list
*/
alpm_list_t SYMEXPORT *alpm_list_add_sorted(alpm_list_t *list, void *data, alpm_list_fn_cmp fn)
{
if(!fn || !list) {
return(alpm_list_add(list, data));
} else {
alpm_list_t *add = NULL, *prev = NULL, *next = list;
add = calloc(1, sizeof(alpm_list_t));
if(add == NULL) {
return(list);
}
add->data = data;
/* Find insertion point. */
while(next) {
if(fn(add->data, next->data) <= 0) break;
prev = next;
next = next->next;
}
/* Insert the add node to the list */
if(prev == NULL) { /* special case: we insert add as the first element */
add->prev = list->prev; /* list != NULL */
add->next = list;
list->prev = add;
return(add);
} else if(next == NULL) { /* another special case: add last element */
add->prev = prev;
add->next = NULL;
prev->next = add;
list->prev = add;
return(list);
} else {
add->prev = prev;
add->next = next;
next->prev = add;
prev->next = add;
return(list);
}
}
}
/**
* @brief Join two lists.
* The two lists must be independent. Do not free the original lists after
* calling this function, as this is not a copy operation. The list pointers
* passed in should be considered invalid after calling this function.
*
* @param first the first list
* @param second the second list
*
* @return the resultant joined list
*/
alpm_list_t SYMEXPORT *alpm_list_join(alpm_list_t *first, alpm_list_t *second)
{
alpm_list_t *tmp;
if (first == NULL) {
return(second);
}
if (second == NULL) {
return(first);
}
/* tmp is the last element of the first list */
tmp = first->prev;
/* link the first list to the second */
tmp->next = second;
/* link the second list to the first */
first->prev = second->prev;
/* set the back reference to the tail */
second->prev = tmp;
return(first);
}
/**
* @brief Merge the two sorted sublists into one sorted list.
*
* @param left the first list
* @param right the second list
* @param fn comparison function for determining merge order
*
* @return the resultant list
*/
alpm_list_t SYMEXPORT *alpm_list_mmerge(alpm_list_t *left, alpm_list_t *right, alpm_list_fn_cmp fn)
{
alpm_list_t *newlist, *lp;
if (left == NULL)
return right;
if (right == NULL)
return left;
if (fn(left->data, right->data) <= 0) {
newlist = left;
left = left->next;
}
else {
newlist = right;
right = right->next;
}
newlist->prev = NULL;
newlist->next = NULL;
lp = newlist;
while ((left != NULL) && (right != NULL)) {
if (fn(left->data, right->data) <= 0) {
lp->next = left;
left->prev = lp;
left = left->next;
}
else {
lp->next = right;
right->prev = lp;
right = right->next;
}
lp = lp->next;
lp->next = NULL;
}
if (left != NULL) {
lp->next = left;
left->prev = lp;
}
else if (right != NULL) {
lp->next = right;
right->prev = lp;
}
/* Find our tail pointer
* TODO maintain this in the algorithm itself */
lp = newlist;
while(lp && lp->next) {
lp = lp->next;
}
newlist->prev = lp;
return(newlist);
}
/**
* @brief Sort a list of size `n` using mergesort algorithm.
*
* @param list the list to sort
* @param n the size of the list
* @param fn the comparison function for determining order
*
* @return the resultant list
*/
alpm_list_t SYMEXPORT *alpm_list_msort(alpm_list_t *list, size_t n, alpm_list_fn_cmp fn)
{
if (n > 1) {
alpm_list_t *left = list;
alpm_list_t *lastleft = alpm_list_nth(list, n/2 - 1);
alpm_list_t *right = lastleft->next;
/* terminate first list */
lastleft->next = NULL;
left = alpm_list_msort(left, n/2, fn);
right = alpm_list_msort(right, n - (n/2), fn);
list = alpm_list_mmerge(left, right, fn);
}
return(list);
}
/**
* @brief Remove an item from the list.
*
* @param haystack the list to remove the item from
* @param needle the data member of the item we're removing
* @param fn the comparison function for searching
* @param data output parameter containing data of the removed item
*
* @return the resultant list
*/
alpm_list_t SYMEXPORT *alpm_list_remove(alpm_list_t *haystack, const void *needle, alpm_list_fn_cmp fn, void **data)
{
alpm_list_t *i = haystack, *tmp = NULL;
if(data) {
*data = NULL;
}
if(needle == NULL) {
return(haystack);
}
while(i) {
if(i->data == NULL) {
i = i->next;
continue;
}
tmp = i->next;
if(fn(i->data, needle) == 0) {
/* we found a matching item */
if(i == haystack) {
/* Special case: removing the head node which has a back reference to
* the tail node */
haystack = i->next;
if(haystack) {
haystack->prev = i->prev;
}
i->prev = NULL;
} else if(i == haystack->prev) {
/* Special case: removing the tail node, so we need to fix the back
* reference on the head node. We also know tail != head. */
if(i->prev) {
/* i->next should always be null */
i->prev->next = i->next;
haystack->prev = i->prev;
i->prev = NULL;
}
} else {
/* Normal case, non-head and non-tail node */
if(i->next) {
i->next->prev = i->prev;
}
if(i->prev) {
i->prev->next = i->next;
}
}
if(data) {
*data = i->data;
}
i->data = NULL;
free(i);
i = NULL;
} else {
i = tmp;
}
}
return(haystack);
}
/**
* @brief Remove a string from a list.
*
* @param haystack the list to remove the item from
* @param needle the data member of the item we're removing
* @param data output parameter containing data of the removed item
*
* @return the resultant list
*/
alpm_list_t SYMEXPORT *alpm_list_remove_str(alpm_list_t *haystack,
const char *needle, char **data)
{
return(alpm_list_remove(haystack, (const void *)needle,
(alpm_list_fn_cmp)strcmp, (void **)data));
}
/**
* @brief Create a new list without any duplicates.
*
* This does NOT copy data members.
*
* @param list the list to copy
*
* @return a new list containing non-duplicate items
*/
alpm_list_t SYMEXPORT *alpm_list_remove_dupes(const alpm_list_t *list)
{
const alpm_list_t *lp = list;
alpm_list_t *newlist = NULL;
while(lp) {
if(!alpm_list_find_ptr(newlist, lp->data)) {
newlist = alpm_list_add(newlist, lp->data);
}
lp = lp->next;
}
return(newlist);
}
/**
* @brief Copy a string list, including data.
*
* @param list the list to copy
*
* @return a copy of the original list
*/
alpm_list_t SYMEXPORT *alpm_list_strdup(const alpm_list_t *list)
{
const alpm_list_t *lp = list;
alpm_list_t *newlist = NULL;
while(lp) {
newlist = alpm_list_add(newlist, strdup(lp->data));
lp = lp->next;
}
return(newlist);
}
/**
* @brief Copy a list, without copying data.
*
* @param list the list to copy
*
* @return a copy of the original list
*/
alpm_list_t SYMEXPORT *alpm_list_copy(const alpm_list_t *list)
{
const alpm_list_t *lp = list;
alpm_list_t *newlist = NULL;
while(lp) {
newlist = alpm_list_add(newlist, lp->data);
lp = lp->next;
}
return(newlist);
}
/**
* @brief Copy a list and copy the data.
* Note that the data elements to be copied should not contain pointers
* and should also be of constant size.
*
* @param list the list to copy
* @param size the size of each data element
*
* @return a copy of the original list, data copied as well
*/
alpm_list_t SYMEXPORT *alpm_list_copy_data(const alpm_list_t *list,
size_t size)
{
const alpm_list_t *lp = list;
alpm_list_t *newlist = NULL;
while(lp) {
void *newdata = calloc(1, size);
if(newdata) {
memcpy(newdata, lp->data, size);
newlist = alpm_list_add(newlist, newdata);
lp = lp->next;
}
}
return(newlist);
}
/**
* @brief Create a new list in reverse order.
*
* @param list the list to copy
*
* @return a new list in reverse order
*/
alpm_list_t SYMEXPORT *alpm_list_reverse(alpm_list_t *list)
{
const alpm_list_t *lp;
alpm_list_t *newlist = NULL, *backup;
if(list == NULL) {
return(NULL);
}
lp = alpm_list_last(list);
/* break our reverse circular list */
backup = list->prev;
list->prev = NULL;
while(lp) {
newlist = alpm_list_add(newlist, lp->data);
lp = lp->prev;
}
list->prev = backup; /* restore tail pointer */
return(newlist);
}
/* Accessors */
/**
* @brief Get the first element of a list.
*
* @param list the list
*
* @return the first element in the list
*/
inline alpm_list_t SYMEXPORT *alpm_list_first(const alpm_list_t *list)
{
if(list) {
return((alpm_list_t*)list);
} else {
return(NULL);
}
}
/**
* @brief Return nth element from list (starting from 0).
*
* @param list the list
* @param n the index of the item to find (n < alpm_list_count(list) IS needed)
*
* @return an alpm_list_t node for index `n`
*/
alpm_list_t SYMEXPORT *alpm_list_nth(const alpm_list_t *list, size_t n)
{
const alpm_list_t *i = list;
while(n--) {
i = i->next;
}
return((alpm_list_t*)i);
}
/**
* @brief Get the next element of a list.
*
* @param node the list node
*
* @return the next element, or NULL when no more elements exist
*/
inline alpm_list_t SYMEXPORT *alpm_list_next(const alpm_list_t *node)
{
if(node) {
return(node->next);
} else {
return(NULL);
}
}
/**
* @brief Get the last item in the list.
*
* @param list the list
*
* @return the last element in the list
*/
alpm_list_t SYMEXPORT *alpm_list_last(const alpm_list_t *list)
{
if(list) {
return(list->prev);
} else {
return(NULL);
}
}
/**
* @brief Get the data member of a list node.
*
* @param node the list node
*
* @return the contained data, or NULL if none
*/
void SYMEXPORT *alpm_list_getdata(const alpm_list_t *node)
{
if(node == NULL) return(NULL);
return(node->data);
}
/* Misc */
/**
* @brief Get the number of items in a list.
*
* @param list the list
*
* @return the number of list items
*/
size_t SYMEXPORT alpm_list_count(const alpm_list_t *list)
{
size_t i = 0;
const alpm_list_t *lp = list;
while(lp) {
++i;
lp = lp->next;
}
return(i);
}
/**
* @brief Find an item in a list.
*
* @param needle the item to search
* @param haystack the list
* @param fn the comparison function for searching (!= NULL)
*
* @return `needle` if found, NULL otherwise
*/
void SYMEXPORT *alpm_list_find(const alpm_list_t *haystack, const void *needle,
alpm_list_fn_cmp fn)
{
const alpm_list_t *lp = haystack;
while(lp) {
if(lp->data && fn(lp->data, needle) == 0) {
return(lp->data);
}
lp = lp->next;
}
return(NULL);
}
/* trivial helper function for alpm_list_find_ptr */
static int ptr_cmp(const void *p, const void *q)
{
return(p != q);
}
/**
* @brief Find an item in a list.
*
* Search for the item whose data matches that of the `needle`.
*
* @param needle the data to search for (== comparison)
* @param haystack the list
*
* @return `needle` if found, NULL otherwise
*/
void SYMEXPORT *alpm_list_find_ptr(const alpm_list_t *haystack, const void *needle)
{
return(alpm_list_find(haystack, needle, ptr_cmp));
}
/**
* @brief Find a string in a list.
*
* @param needle the string to search for
* @param haystack the list
*
* @return `needle` if found, NULL otherwise
*/
char SYMEXPORT *alpm_list_find_str(const alpm_list_t *haystack,
const char *needle)
{
return((char *)alpm_list_find(haystack, (const void*)needle,
(alpm_list_fn_cmp)strcmp));
}
/**
* @brief Find the differences between list `left` and list `right`
*
* The two lists must be sorted. Items only in list `left` are added to the
* `onlyleft` list. Items only in list `right` are added to the `onlyright`
* list.
*
* @param left the first list
* @param right the second list
* @param fn the comparison function
* @param onlyleft pointer to the first result list
* @param onlyright pointer to the second result list
*
*/
void SYMEXPORT alpm_list_diff_sorted(const alpm_list_t *left,
const alpm_list_t *right, alpm_list_fn_cmp fn,
alpm_list_t **onlyleft, alpm_list_t **onlyright)
{
const alpm_list_t *l = left;
const alpm_list_t *r = right;
if(!onlyleft && !onlyright) {
return;
}
while (l != NULL && r != NULL) {
int cmp = fn(l->data, r->data);
if(cmp < 0) {
if(onlyleft) {
*onlyleft = alpm_list_add(*onlyleft, l->data);
}
l = l->next;
}
else if(cmp > 0) {
if(onlyright) {
*onlyright = alpm_list_add(*onlyright, r->data);
}
r = r->next;
} else {
l = l->next;
r = r->next;
}
}
while (l != NULL) {
if(onlyleft) {
*onlyleft = alpm_list_add(*onlyleft, l->data);
}
l = l->next;
}
while (r != NULL) {
if(onlyright) {
*onlyright = alpm_list_add(*onlyright, r->data);
}
r = r->next;
}
}
/**
* @brief Find the items in list `lhs` that are not present in list `rhs`.
*
* @param lhs the first list
* @param rhs the second list
* @param fn the comparison function
*
* @return a list containing all items in `lhs` not present in `rhs`
*/
alpm_list_t SYMEXPORT *alpm_list_diff(const alpm_list_t *lhs,
const alpm_list_t *rhs, alpm_list_fn_cmp fn)
{
alpm_list_t *left, *right;
alpm_list_t *ret = NULL;
left = alpm_list_copy(lhs);
left = alpm_list_msort(left, alpm_list_count(left), fn);
right = alpm_list_copy(rhs);
right = alpm_list_msort(right, alpm_list_count(right), fn);
alpm_list_diff_sorted(left, right, fn, &ret, NULL);
alpm_list_free(left);
alpm_list_free(right);
return(ret);
}
/** @} */
/* vim: set ts=2 sw=2 noet: */