ocarina/core/deck.cpp

/**
 * Copyright 2013 (c) Anna Schumaker.
 */
extern "C" {
#include <core/collection.h>
#include <core/history.h>
}
#include <core/deck.h>
#include <core/file.h>

static std::list<TempQueue> queue_deck;
static struct file deck_file;


TempQueue :: TempQueue(bool random, struct queue_ops *ops)
{
	unsigned int flags = Q_ENABLED | Q_SAVE_FLAGS | Q_SAVE_SORT;
	queue_init(this, flags | (random ? Q_RANDOM : 0), ops);
}


void TempQueue :: write(file &file)
{
	file_writef(&file, "%u %zu", q_flags, queue_size(this));
	for (unsigned int i = 0; i < queue_size(this); i++)
		file_writef(&file, " %u", queue_at(this, i)->tr_dbe.dbe_index);
}

void TempQueue :: read(file &file)
{
	unsigned int n, id;
	file_readf(&file, "%u %u", &q_flags, &n);
	for (unsigned int i = 0; i < n; i++) {
		file_readf(&file, "%u", &id);
		queue_add(this, track_get(id));
	}
}

unsigned int TempQueue :: add(struct track *track)
{
	unsigned int res = queue_add(this, track);
	deck :: write();
	return res;
}

void TempQueue :: del(struct track *track)
{
	queue_remove_all(this, track);
	deck :: write();
}

void TempQueue :: del(unsigned int id)
{
	queue_remove(this, id);
	deck :: write();
}


void tempq_init(struct queue_ops *ops)
{
	unsigned int num, i;

	file_init(&deck_file, "deck", 1);
	if (!file_open(&deck_file, OPEN_READ))
		return;
	if (file_version(&deck_file) < 1)
		return;

	file_readf(&deck_file, "%u", &num);
	for (i = 0; i < num; i++) {
		queue_deck.push_back(TempQueue(false, NULL));
		queue_deck.back().read(deck_file);
		queue_deck.back().q_ops = ops;
	}
	file_close(&deck_file);
}

void deck :: write()
{
	std::list<TempQueue>::iterator it;

	if (!file_open(&deck_file, OPEN_WRITE))
		return;

	file_writef(&deck_file, "%zu\n", queue_deck.size());
	for (it = queue_deck.begin(); it != queue_deck.end(); it++) {
		it->write(deck_file);
		file_writef(&deck_file, "\n");
	}

	file_close(&deck_file);
}

void deck :: save(struct queue *queue, enum queue_flags flag)
{
	deck :: write();
}

queue *deck :: create(bool random, struct queue_ops *ops)
{
	queue_deck.push_back(TempQueue(random, ops));
	return &queue_deck.back();
}

static void _destroy(std::list<TempQueue>::iterator &it)
{
	queue_deck.erase(it);
	deck :: write();
}

void deck :: destroy(queue *queue)
{
	std::list<TempQueue>::iterator it;

	for (it = queue_deck.begin(); it != queue_deck.end(); it++) {
		if (&(*it) == queue) {
			_destroy(it);
			return;
		}
	}
}

void deck :: move(queue *queue, unsigned int index)
{
	unsigned int old_pos = deck :: index(queue);
	std::list<TempQueue>::iterator it_old = queue_deck.begin();
	std::list<TempQueue>::iterator it_new = queue_deck.begin();

	for (unsigned int i = 0; i < queue_deck.size(); i++) {
		if (i < old_pos)
			it_old++;

		if (i < index)
			it_new++;
	}

	if (index > old_pos)
		it_new++;

	queue_deck.splice(it_new, queue_deck, it_old);
	write();
}

unsigned int deck :: index(queue *queue)
{
	unsigned int i = 0;
	std::list<TempQueue>::iterator it;

	for (it = queue_deck.begin(); it != queue_deck.end(); it++) {
		if (&(*it) == queue)
			return i;
		i++;
	}

	return queue_deck.size();
}

queue *deck :: get(unsigned int index)
{
	std::list<TempQueue>::iterator it;

	for (it = queue_deck.begin(); it != queue_deck.end(); it++) {
		if (index == 0)
			return &(*it);
		index--;
	}
	return NULL;
}

struct track *deck :: next()
{
	struct track *track = NULL;
	std::list<TempQueue>::iterator it;

	for (it = queue_deck.begin(); it != queue_deck.end(); it++) {
		if (queue_has_flag(&(*it), Q_ENABLED) == false)
			continue;

		track = queue_next(&(*it));
		if (queue_size(&(*it)) == 0)
			_destroy(it);
		break;
	}

	if (!track)
		track = queue_next(collection_get_queue());
	return track;
}

std::list<TempQueue> &deck :: get_queues()
{
	return queue_deck;
}