/* the Music Player Daemon (MPD)
* (c)2003-2004 by Warren Dukes (shank@mercury.chem.pitt.edu)
* This project's homepage is: http://www.musicpd.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, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "list.h"
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <time.h>
#include <stdio.h>
void makeListNodesArray(List * list) {
ListNode * node = list->firstNode;
long i;
if(!list->numberOfNodes) return;
list->nodesArray = malloc(sizeof(ListNode *)*list->numberOfNodes);
for(i=0;i<list->numberOfNodes;i++) {
list->nodesArray[i] = node;
node = node->nextNode;
}
}
void freeListNodesArray(List * list) {
if(!list->nodesArray) return;
free(list->nodesArray);
list->nodesArray = NULL;
}
List * makeList(ListFreeDataFunc * freeDataFunc, int strdupKeys) {
List * list = malloc(sizeof(List));
assert(list!=NULL);
list->firstNode = NULL;
list->lastNode = NULL;
list->freeDataFunc = freeDataFunc;
list->numberOfNodes = 0;
list->nodesArray = NULL;
list->strdupKeys = strdupKeys;
return list;
}
ListNode * insertInListBeforeNode(List * list, ListNode * beforeNode, char * key, void * data)
{
ListNode * node;
assert(list!=NULL);
assert(key!=NULL);
/*assert(data!=NULL);*/
node = malloc(sizeof(ListNode));
assert(node!=NULL);
if(beforeNode==NULL) node = insertInList(list, key, data);
else {
node->nextNode = beforeNode;
if(beforeNode==list->firstNode) {
if(list->firstNode==NULL) {
assert(list->lastNode==NULL);
list->lastNode = node;
}
else {
assert(list->lastNode!=NULL);
assert(list->lastNode->nextNode==NULL);
list->firstNode->prevNode = node;
}
node->prevNode = NULL;
list->firstNode = node;
}
else {
node->prevNode = beforeNode->prevNode;
if(node->prevNode) {
node->prevNode->nextNode = node;
}
beforeNode->prevNode = node;
}
if(list->strdupKeys) node->key = strdup(key);
else node->key = key;
assert(node->key!=NULL);
node->data = data;
list->numberOfNodes++;
}
freeListNodesArray(list);
if(list->sorted) makeListNodesArray(list);
return node;
}
ListNode * insertInList(List * list, char * key, void * data) {
ListNode * node;
assert(list!=NULL);
assert(key!=NULL);
/*assert(data!=NULL);*/
node = malloc(sizeof(ListNode));
assert(node!=NULL);
if(list->nodesArray) freeListNodesArray(list);
if(list->firstNode==NULL) {
assert(list->lastNode==NULL);
list->firstNode = node;
}
else {
assert(list->lastNode!=NULL);
assert(list->lastNode->nextNode==NULL);
list->lastNode->nextNode = node;
}
if(list->strdupKeys) node->key = strdup(key);
else node->key = key;
node->data = data;
node->nextNode = NULL;
node->prevNode = list->lastNode;
list->lastNode = node;
list->numberOfNodes++;
return node;
}
int insertInListWithoutKey(List * list, void * data) {
ListNode * node;
assert(list!=NULL);
assert(data!=NULL);
node = malloc(sizeof(ListNode));
assert(node!=NULL);
if(list->nodesArray) freeListNodesArray(list);
if(list->firstNode==NULL) {
assert(list->lastNode==NULL);
list->firstNode = node;
}
else {
assert(list->lastNode!=NULL);
assert(list->lastNode->nextNode==NULL);
list->lastNode->nextNode = node;
}
node->key = NULL;
node->data = data;
node->nextNode = NULL;
node->prevNode = list->lastNode;
list->lastNode = node;
list->numberOfNodes++;
return 1;
}
int findNodeInList(List * list, char * key, ListNode ** node) {
static long high;
static long low;
static long cur;
static ListNode * tmpNode;
static int cmp;
assert(list!=NULL);
if(list->sorted && list->nodesArray) {
high = list->numberOfNodes-1;
low = 0;
cur = high;
while(high>low) {
cur = (high+low)/2;
tmpNode = list->nodesArray[cur];
cmp = strcmp(tmpNode->key,key);
if(cmp==0) {
*node = tmpNode;
return 1;
}
else if(cmp>0) high = cur;
else {
if(low==cur) break;
low = cur;
}
}
cur = high;
if(cur>=0) {
tmpNode = list->nodesArray[cur];
cmp = strcmp(tmpNode->key,key);
*node = tmpNode;
if( 0 == cmp ) return 1;
else if( cmp > 0) return 0;
else {
*node = NULL;
return 0;
}
}
else {
*node = list->firstNode;
return 0;
}
}
else {
tmpNode = list->firstNode;
while(tmpNode!=NULL && strcmp(tmpNode->key,key)!=0) {
tmpNode = tmpNode->nextNode;
}
*node = tmpNode;
if(tmpNode) return 1;
}
return 0;
}
int findInList(List * list, char * key, void ** data) {
ListNode * node;
if(findNodeInList(list, key, &node)) {
if(data) *data = node->data;
return 1;
}
return 0;
}
int deleteFromList(List * list,char * key) {
ListNode * tmpNode;
assert(list!=NULL);
tmpNode = list->firstNode;
while(tmpNode!=NULL && strcmp(tmpNode->key,key)!=0) {
tmpNode = tmpNode->nextNode;
}
if(tmpNode!=NULL)
deleteNodeFromList(list,tmpNode);
else
return 0;
return 1;
}
void deleteNodeFromList(List * list,ListNode * node) {
assert(list!=NULL);
assert(node!=NULL);
if(node->prevNode==NULL) {
list->firstNode = node->nextNode;
}
else {
node->prevNode->nextNode = node->nextNode;
}
if(node->nextNode==NULL) {
list->lastNode = node->prevNode;
}
else {
node->nextNode->prevNode = node->prevNode;
}
if(list->freeDataFunc) {
list->freeDataFunc(node->data);
}
if(list->strdupKeys) free(node->key);
free(node);
list->numberOfNodes--;
if(list->nodesArray) {
freeListNodesArray(list);
if(list->sorted) makeListNodesArray(list);
}
}
void freeList(void * list) {
ListNode * tmpNode;
ListNode * tmpNode2;
assert(list!=NULL);
tmpNode = ((List *)list)->firstNode;
if(((List *)list)->nodesArray) free(((List *)list)->nodesArray);
while(tmpNode!=NULL) {
tmpNode2 = tmpNode->nextNode;
if(((List *)list)->strdupKeys) free(tmpNode->key);
if(((List *)list)->freeDataFunc) {
((List *)list)->freeDataFunc(tmpNode->data);
}
free(tmpNode);
tmpNode = tmpNode2;
}
free(list);
}
void clearList(List * list) {
ListNode * tmpNode;
ListNode * tmpNode2;
assert(list!=NULL);
tmpNode = ((List *)list)->firstNode;
while(tmpNode!=NULL) {
tmpNode2 = tmpNode->nextNode;
if(list->strdupKeys) free(tmpNode->key);
if(((List *)list)->freeDataFunc) {
((List *)list)->freeDataFunc(tmpNode->data);
}
free(tmpNode);
tmpNode = tmpNode2;
}
if(list->nodesArray) freeListNodesArray(list);
list->firstNode = NULL;
list->lastNode = NULL;
list->numberOfNodes = 0;
}
void swapNodes(ListNode * nodeA, ListNode * nodeB) {
char * key;
void * data;
assert(nodeA!=NULL);
assert(nodeB!=NULL);
key = nodeB->key;
data = nodeB->data;
nodeB->key = nodeA->key;
nodeB->data = nodeA->data;
nodeA->key = key;
nodeA->data = data;
}
void moveNodeAfter(List * list, ListNode * moveNode, ListNode * beforeNode) {
ListNode * prev;
ListNode * next;
assert(moveNode!=NULL);
prev = moveNode->prevNode;
next = moveNode->nextNode;
if(prev) prev->nextNode = next;
else list->firstNode = next;
if(next) next->prevNode = prev;
else list->lastNode = prev;
if(beforeNode) {
next = beforeNode->nextNode;
moveNode->nextNode = next;
moveNode->prevNode = beforeNode;
next->prevNode = moveNode;
beforeNode->nextNode = moveNode;
if(beforeNode==list->lastNode) list->lastNode = moveNode;
}
else {
moveNode->prevNode = NULL;
moveNode->nextNode = list->firstNode;
list->firstNode = moveNode;
if(list->lastNode==NULL) list->lastNode = moveNode;
}
}
void bubbleSort(ListNode ** nodesArray, long start, long end) {
long i;
long j;
ListNode * node;
if(start>=end) return;
for(j=start;j<end;j++) {
for(i=end-1;i>=start;i--) {
node = nodesArray[i];
if(strcmp(node->key,node->nextNode->key)>0) {
swapNodes(node,node->nextNode);
}
}
}
}
void quickSort(ListNode ** nodesArray, long start, long end) {
if(start>=end) return;
else if(end-start<5) bubbleSort(nodesArray,start,end);
else {
long i;
ListNode * node;
long pivot;
ListNode * pivotNode;
char * pivotKey;
List * startList = makeList(free, 0);
List * endList = makeList(free, 0);
long * startPtr = malloc(sizeof(long));
long * endPtr = malloc(sizeof(long));
*startPtr = start;
*endPtr = end;
insertInListWithoutKey(startList,(void *)startPtr);
insertInListWithoutKey(endList,(void *)endPtr);
while(startList->numberOfNodes) {
start = *((long *)startList->lastNode->data);
end = *((long *)endList->lastNode->data);
if(end-start<5) {
bubbleSort(nodesArray,start,end);
deleteNodeFromList(startList,startList->lastNode);
deleteNodeFromList(endList,endList->lastNode);
}
else {
pivot = (start+end)/2;
pivotNode = nodesArray[pivot];
pivotKey = pivotNode->key;
for(i=pivot-1;i>=start;i--) {
node = nodesArray[i];
if(strcmp(node->key,pivotKey)>0) {
pivot--;
if(pivot>i) {
swapNodes(node,nodesArray[pivot]);
}
swapNodes(pivotNode,nodesArray[pivot]);
pivotNode = nodesArray[pivot];
}
}
for(i=pivot+1;i<=end;i++) {
node = nodesArray[i];
if(strcmp(pivotKey,node->key)>0) {
pivot++;
if(pivot<i) {
swapNodes(node,nodesArray[pivot]);
}
swapNodes(pivotNode,nodesArray[pivot]);
pivotNode = nodesArray[pivot];
}
}
deleteNodeFromList(startList,startList->lastNode);
deleteNodeFromList(endList,endList->lastNode);
if(pivot-1-start>0) {
startPtr = malloc(sizeof(long));
endPtr = malloc(sizeof(long));
*startPtr = start;
*endPtr = pivot-1;
insertInListWithoutKey(startList,(void *)startPtr);
insertInListWithoutKey(endList,(void *)endPtr);
}
if(end-pivot-1>0) {
startPtr = malloc(sizeof(long));
endPtr = malloc(sizeof(long));
*startPtr = pivot+1;
*endPtr = end;
insertInListWithoutKey(startList,(void *)startPtr);
insertInListWithoutKey(endList,(void *)endPtr);
}
}
}
freeList(startList);
freeList(endList);
}
}
void sortList(List * list) {
assert(list!=NULL);
list->sorted = 1;
if(list->numberOfNodes<2) return;
if(list->nodesArray) freeListNodesArray(list);
makeListNodesArray(list);
quickSort(list->nodesArray,0,list->numberOfNodes-1);
}