#include "dbUtils.h"
#include "directory.h"
#include "myfprintf.h"
#include "utils.h"
#include "playlist.h"
#include "tag.h"
#include "tagTracker.h"
#include "log.h"
#define LOCATE_TAG_FILE_TYPE TAG_NUM_OF_ITEM_TYPES+10
#define LOCATE_TAG_FILE_KEY "filename"
typedef struct ListCommandItem {
mpd_sint8 tagType;
int numConditionals;
LocateTagItem * conditionals;
} ListCommandItem;
int getLocateTagItemType(char * str) {
int i;
if(0 == strcasecmp(str, LOCATE_TAG_FILE_KEY)) {
return LOCATE_TAG_FILE_TYPE;
}
for(i = 0; i < TAG_NUM_OF_ITEM_TYPES; i++) {
if(0 == strcasecmp(str, mpdTagItemKeys[i])) return i;
}
return -1;
}
LocateTagItem * newLocateTagItem(char * typeStr, char * needle) {
LocateTagItem * ret = malloc(sizeof(LocateTagItem));
ret->tagType = getLocateTagItemType(typeStr);
if(ret->tagType < 0) {
free(ret);
return NULL;
}
ret->needle = strdup(needle);
return ret;
}
void freeLocateTagItem(LocateTagItem * item) {
free(item->needle);
free(item);
}
int countSongsInDirectory(FILE * fp, Directory * directory, void * data) {
int * count = (int *)data;
*count+=directory->songs->numberOfNodes;
return 0;
}
int printDirectoryInDirectory(FILE * fp, Directory * directory, void * data) {
if(directory->utf8name) {
myfprintf(fp,"directory: %s\n",directory->utf8name);
}
return 0;
}
int printSongInDirectory(FILE * fp, Song * song, void * data) {
printSongUrl(fp, song);
return 0;
}
static inline int strstrSearchTag(Song * song, int type, char * str) {
int i;
char * dup;
int ret = 0;
if(type == LOCATE_TAG_FILE_TYPE) {
dup = strDupToUpper(getSongUrl(song));
if(strstr(dup, str)) ret = 1;
free(dup);
return ret;
}
if(!song->tag) return 0;
for(i = 0; i < song->tag->numOfItems && !ret; i++) {
if(song->tag->items[i].type != type) continue;
dup = strDupToUpper(song->tag->items[i].value);
if(strstr(dup, str)) ret = 1;
free(dup);
}
return ret;
}
int searchInDirectory(FILE * fp, Song * song, void * item) {
if(strstrSearchTag(song, ((LocateTagItem *)item)->tagType,
((LocateTagItem *)item)->needle)) {
printSongInfo(fp, song);
}
return 0;
}
int searchForSongsIn(FILE * fp, char * name, LocateTagItem * item) {
char * originalNeedle = item->needle;
int ret = -1;
item->needle = strDupToUpper(originalNeedle);
ret = traverseAllIn(fp,name,searchInDirectory, NULL,
(void *)item);
free(item->needle);
item->needle = originalNeedle;
return ret;
}
static inline int tagItemFoundAndMatches(Song * song, int type, char * str) {
int i;
if(type == LOCATE_TAG_FILE_TYPE) {
if(0 == strcmp(str, getSongUrl(song))) return 1;
}
if(!song->tag) return 0;
for(i = 0; i < song->tag->numOfItems; i++) {
if(song->tag->items[i].type != type) continue;
if(0 == strcmp(str, song->tag->items[i].value)) return 1;
}
return 0;
}
int findInDirectory(FILE * fp, Song * song, void * item) {
if(tagItemFoundAndMatches(song, ((LocateTagItem *)item)->tagType,
((LocateTagItem *)item)->needle)) {
printSongInfo(fp, song);
}
return 0;
}
int findSongsIn(FILE * fp, char * name, LocateTagItem * item) {
return traverseAllIn(fp, name, findInDirectory, NULL,
(void *)item);
}
int printAllIn(FILE * fp, char * name) {
return traverseAllIn(fp,name,printSongInDirectory,
printDirectoryInDirectory,NULL);
}
int directoryAddSongToPlaylist(FILE * fp, Song * song, void * data) {
return addSongToPlaylist(fp, song, 0);
}
int addAllIn(FILE * fp, char * name) {
return traverseAllIn(fp,name,directoryAddSongToPlaylist,NULL,NULL);
}
int directoryPrintSongInfo(FILE * fp, Song * song, void * data) {
return printSongInfo(fp,song);
}
int sumSongTime(FILE * fp, Song * song, void * data) {
unsigned long * time = (unsigned long *)data;
if(song->tag && song->tag->time>=0) *time+=song->tag->time;
return 0;
}
int printInfoForAllIn(FILE * fp, char * name) {
return traverseAllIn(fp,name,directoryPrintSongInfo,printDirectoryInDirectory,NULL);
}
int countSongsIn(FILE * fp, char * name) {
int count = 0;
void * ptr = (void *)&count;
traverseAllIn(fp,name,NULL,countSongsInDirectory,ptr);
return count;
}
unsigned long sumSongTimesIn(FILE * fp, char * name) {
unsigned long dbPlayTime = 0;
void * ptr = (void *)&dbPlayTime;
traverseAllIn(fp,name,sumSongTime,NULL,ptr);
return dbPlayTime;
}
ListCommandItem * newListCommandItem(int tagType, int numConditionals,
LocateTagItem * conditionals)
{
ListCommandItem * item = malloc(sizeof(ListCommandItem));
item->tagType = tagType;
item->numConditionals = numConditionals;
item->conditionals = conditionals;
return item;
}
void freeListCommandItem(ListCommandItem * item) {
free(item);
}
void printUnvisitedTags(FILE * fp, Song * song, int tagType) {
int i;
MpdTag * tag = song->tag;
if(tagType == LOCATE_TAG_FILE_TYPE) {
printSongUrl(fp, song);
return;
}
if(!tag) return;
for(i = 0; i < tag->numOfItems; i++) {
if(tag->items[i].type == tagType &&
!wasVisitedInTagTracker(tagType, tag->items[i].value))
{
myfprintf(fp, "%s: %s\n", mpdTagItemKeys[tagType],
tag->items[i].value);
}
}
}
int listUniqueTagsInDirectory(FILE * fp, Song * song, void * data) {
ListCommandItem * item = data;
int i;
for(i = 0; i < item->numConditionals; i++) {
if(!tagItemFoundAndMatches(song, item->conditionals[i].tagType,
item->conditionals[i].needle))
{
return 0;
}
}
printUnvisitedTags(fp, song, item->tagType);
return 0;
}
int listAllUniqueTags(FILE * fp, int type, int numConditionals,
LocateTagItem * conditionals)
{
int ret;
ListCommandItem * item = newListCommandItem(type, numConditionals,
conditionals);
if(type >= 0 && type <= TAG_NUM_OF_ITEM_TYPES) {
resetVisitedFlagsInTagTracker(type);
}
ret = traverseAllIn(fp, NULL, listUniqueTagsInDirectory, NULL,
(void *)item);
freeListCommandItem(item);
return ret;
}
int sumSavedMemoryInDirectory(FILE * fp, Directory * dir, void * data) {
int * sum = data;
if(!dir->utf8name) return 0;
*sum += (strlen(dir->utf8name)+1-sizeof(Directory *))*
dir->songs->numberOfNodes;
return 0;
}
void printSavedMemoryFromFilenames() {
int sum;
traverseAllIn(stderr, NULL, NULL, sumSavedMemoryInDirectory,
(void *)&sum);
DEBUG("saved memory from filenames: %i\n", sum);
}