/*

Copyright (c) 2008, Arvid Norberg
All rights reserved.

Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:

    * Redistributions of source code must retain the above copyright
      notice, this list of conditions and the following disclaimer.
    * Redistributions in binary form must reproduce the above copyright
      notice, this list of conditions and the following disclaimer in
      the documentation and/or other materials provided with the distribution.
    * Neither the name of the author nor the names of its
      contributors may be used to endorse or promote products derived
      from this software without specific prior written permission.

THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
POSSIBILITY OF SUCH DAMAGE.

*/

#include "libtorrent/piece_picker.hpp"
#include "libtorrent/policy.hpp"
#include "libtorrent/bitfield.hpp"
#include <boost/shared_ptr.hpp>
#include <boost/bind.hpp>
#include <algorithm>
#include <vector>
#include <set>
#include <map>
#include <iostream>

#include "test.hpp"

using namespace libtorrent;

const int blocks_per_piece = 4;

bitfield string2vec(char const* have_str)
{
	const int num_pieces = strlen(have_str);
	bitfield have(num_pieces, false);
	for (int i = 0; i < num_pieces; ++i)
		if (have_str[i] != ' ')  have.set_bit(i);
	return have;
}

// availability is a string where each character is the
// availability of that piece, '1', '2' etc.
// have_str is a string where each character represents a
// piece, ' ' means we don't have the piece and any other
// character means we have it
boost::shared_ptr<piece_picker> setup_picker(
	char const* availability
	, char const* have_str
	, char const* priority
	, char const* partial)
{
	const int num_pieces = strlen(availability);
	assert(int(strlen(have_str)) == num_pieces);

	boost::shared_ptr<piece_picker> p(new piece_picker);
	p->init(blocks_per_piece, blocks_per_piece, num_pieces);

	for (int i = 0; i < num_pieces; ++i)
	{
		const int avail = availability[i] - '0';
		assert(avail >= 0);
		
		for (int j = 0; j < avail; ++j) p->inc_refcount(i);
	}

	bitfield have = string2vec(have_str);

	for (int i = 0; i < num_pieces; ++i)
	{
		if (partial[i] == 0) break;

		if (partial[i] == ' ') continue;

		int blocks = 0;
		if (partial[i] >= '0' && partial[i] <= '9')
			blocks = partial[i] - '0';
		else
			blocks = partial[i] - 'a' + 10;

		int counter = 0;
		for (int j = 0; j < 4; ++j)
		{
			TEST_CHECK(!p->is_finished(piece_block(i, j)));
			if ((blocks & (1 << j)) == 0) continue;
			++counter;
			bool ret = p->mark_as_downloading(piece_block(i, j), 0, piece_picker::slow);
			TEST_CHECK(ret == true);
			TEST_CHECK(p->is_requested(piece_block(i, j)) == bool(blocks & (1 << j)));
			p->mark_as_writing(piece_block(i, j), 0);
			TEST_CHECK(!p->is_finished(piece_block(i, j)));
			// trying to mark a block as requested after it has been completed
			// should fail (return false)
			ret = p->mark_as_downloading(piece_block(i, j), 0, piece_picker::slow);
			TEST_CHECK(ret == false);
			p->mark_as_finished(piece_block(i, j), 0);

			TEST_CHECK(p->is_downloaded(piece_block(i, j)) == bool(blocks & (1 << j)));
			TEST_CHECK(p->is_finished(piece_block(i, j)) == bool(blocks & (1 << j)));
		}

		piece_picker::downloading_piece st;
		p->piece_info(i, st);
		TEST_CHECK(st.writing == 0);
		TEST_CHECK(st.requested == 0);
		TEST_CHECK(st.index == i);

		TEST_CHECK(st.finished == counter);
		TEST_CHECK(st.finished + st.requested + st.writing == counter);

		TEST_CHECK(p->is_piece_finished(i) == (counter == 4));
	}

	for (int i = 0; i < num_pieces; ++i)
	{
		if (priority[i] == 0) break;
		const int prio = priority[i] - '0';
		assert(prio >= 0);
		p->set_piece_priority(i, prio);

		TEST_CHECK(p->piece_priority(i) == prio);
	}

	for (int i = 0; i < num_pieces; ++i)
	{
		if (!have[i]) continue;
		p->we_have(i);
		for (int j = 0; j < blocks_per_piece; ++j)
			TEST_CHECK(p->is_finished(piece_block(i, j)));
	}

	std::vector<int> availability_vec;
	p->get_availability(availability_vec);
	for (int i = 0; i < num_pieces; ++i)
	{
		const int avail = availability[i] - '0';
		assert(avail >= 0);
		TEST_CHECK(avail == availability_vec[i]);
	}

#ifdef TORRENT_DEBUG
	p->check_invariant();
#endif
	return p;
}

bool verify_pick(boost::shared_ptr<piece_picker> p
	, std::vector<piece_block> const& picked, bool allow_multi_blocks = false)
{
#ifdef TORRENT_DEBUG
	p->check_invariant();
#endif
	if (!allow_multi_blocks)
	{
		for (std::vector<piece_block>::const_iterator i = picked.begin()
			, end(picked.end()); i != end; ++i)
		{
			if (p->num_peers(*i) > 0) return false;
		}
	}

	// make sure there are no duplicated
	std::set<piece_block> blocks;
	std::copy(picked.begin(), picked.end()
		, std::insert_iterator<std::set<piece_block> >(blocks, blocks.end()));
	std::cerr << " verify: " << picked.size() << " " << blocks.size() << std::endl;
	return picked.size() == blocks.size();
}

void print_availability(boost::shared_ptr<piece_picker> const& p)
{
	std::vector<int> avail;
	p->get_availability(avail);
	printf("[ ");
	for (std::vector<int>::iterator i = avail.begin()
		, end(avail.end()); i != end; ++i)
	{
		printf("%d ", *i);
	}
	printf("]\n");
}

bool verify_availability(boost::shared_ptr<piece_picker> const& p, char const* a)
{
	std::vector<int> avail;
	p->get_availability(avail);
	for (std::vector<int>::iterator i = avail.begin()
		, end(avail.end()); i != end; ++i, ++a)
	{
		if (*a - '0' != *i) return false;
	}
	return true;
}

void print_pick(std::vector<piece_block> const& picked)
{
	for (int i = 0; i < int(picked.size()); ++i)
	{
		std::cout << "(" << picked[i].piece_index << ", " << picked[i].block_index << ") ";
	}
	std::cout << std::endl;
}

void print_title(char const* name)
{
	std::cerr << "==== " << name << " ====\n";
}

std::vector<piece_block> pick_pieces(boost::shared_ptr<piece_picker> const& p, char const* availability
	, int num_blocks, int prefer_whole_pieces, void* peer_struct, piece_picker::piece_state_t state
	, int options, std::vector<int> const& suggested_pieces)
{
	std::vector<piece_block> picked;
	p->pick_pieces(string2vec(availability), picked, num_blocks, prefer_whole_pieces, peer_struct
		, state, options, suggested_pieces, 20);
	print_pick(picked);
	TEST_CHECK(verify_pick(p, picked));
	return picked;
}

int test_pick(boost::shared_ptr<piece_picker> const& p, int options = piece_picker::rarest_first)
{
	const std::vector<int> empty_vector;
	std::vector<piece_block> picked = pick_pieces(p, "*******", 1, 0, 0
		, piece_picker::fast, options, empty_vector);
	if (picked.empty()) return -1;
	return picked[0].piece_index;
}

int test_main()
{
	tcp::endpoint endp;
	piece_picker::downloading_piece st;
	policy::ipv4_peer tmp1(endp, false, 0);
	policy::ipv4_peer tmp2(endp, false, 0);
	policy::ipv4_peer tmp3(endp, false, 0);
	policy::ipv4_peer peer_struct(endp, true, 0);
#if defined TORRENT_DEBUG || TORRENT_RELEASE_ASSERTS
	tmp1.in_use = true;
	tmp2.in_use = true;
	tmp3.in_use = true;
	peer_struct.in_use = true;
#endif
	std::vector<piece_block> picked;
	boost::shared_ptr<piece_picker> p;
	const std::vector<int> empty_vector;
	int options = piece_picker::rarest_first;

// ========================================================

	// test abort_download
	print_title("test abort_download");
	p = setup_picker("1111111", "       ", "7110000", ""); 
	picked = pick_pieces(p, "*******", blocks_per_piece, 0, 0, piece_picker::fast
		, options, empty_vector);
	TEST_CHECK(p->is_requested(piece_block(0, 0)) == false);
	TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) != picked.end());

	p->abort_download(piece_block(piece_block(0,0)));
	picked = pick_pieces(p, "*******", blocks_per_piece, 0, 0, piece_picker::fast
		, options, empty_vector);
	TEST_CHECK(p->is_requested(piece_block(0, 0)) == false);
	TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) != picked.end());

	p->mark_as_downloading(piece_block(0,0), &tmp1, piece_picker::fast);
	picked = pick_pieces(p, "*******", blocks_per_piece, 0, 0, piece_picker::fast
		, options, empty_vector);
	TEST_CHECK(p->is_requested(piece_block(0, 0)) == true);
	TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) == picked.end());

	p->abort_download(piece_block(0,0));
	picked = pick_pieces(p, "*******", blocks_per_piece, 0, 0, piece_picker::fast
		, options, empty_vector);
	TEST_CHECK(p->is_requested(piece_block(0, 0)) == false);
	TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) != picked.end());

	p->mark_as_downloading(piece_block(0,0), &tmp1, piece_picker::fast);
	p->mark_as_downloading(piece_block(0,1), &tmp1, piece_picker::fast);
	p->abort_download(piece_block(0,0));
	picked = pick_pieces(p, "*******", blocks_per_piece, 0, 0, piece_picker::fast
		, options, empty_vector);
	TEST_CHECK(p->is_requested(piece_block(0, 0)) == false);
	TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) != picked.end());

	p->mark_as_downloading(piece_block(0,0), &tmp1, piece_picker::fast);
	p->mark_as_writing(piece_block(0,0), &tmp1);
	p->write_failed(piece_block(0,0));
	picked = pick_pieces(p, "*******", blocks_per_piece, 0, 0, piece_picker::fast
		, options, empty_vector);
	TEST_CHECK(p->is_requested(piece_block(0, 0)) == false);
	TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) != picked.end());

	p->mark_as_downloading(piece_block(0,0), &tmp1, piece_picker::fast);
	p->mark_as_writing(piece_block(0,0), &tmp1);
	p->mark_as_finished(piece_block(0,0), &tmp1);
	p->abort_download(piece_block(0,0));
	picked = pick_pieces(p, "*******", blocks_per_piece, 0, 0, piece_picker::fast
		, options, empty_vector);
	TEST_CHECK(p->is_requested(piece_block(0, 0)) == false);
	TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) == picked.end());

	p = setup_picker("1111111", "       ", "7110000", ""); 
	p->mark_as_downloading(piece_block(0,0), &tmp1, piece_picker::fast);
	p->mark_as_finished(piece_block(0,1), 0);
	p->piece_info(0, st);
	TEST_CHECK(st.requested == 1);
	TEST_CHECK(st.finished == 1);
	TEST_CHECK(st.state == piece_picker::fast);
	p->abort_download(piece_block(0,0));
	p->piece_info(0, st);
	TEST_CHECK(st.requested == 0);
	TEST_CHECK(st.finished == 1);
	TEST_CHECK(st.state == piece_picker::none);
	picked = pick_pieces(p, "*******", blocks_per_piece, 0, 0, piece_picker::fast
		, options, empty_vector);
	TEST_CHECK(p->is_requested(piece_block(0, 0)) == false);
	TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) != picked.end());

	p->mark_as_downloading(piece_block(0, 2), &tmp1, piece_picker::fast);
	p->mark_as_writing(piece_block(0, 2), &tmp1);
	p->abort_download(piece_block(0, 2), &tmp1);
	p->mark_as_downloading(piece_block(0, 2), &tmp2, piece_picker::fast);
	p->mark_as_writing(piece_block(0, 2), &tmp2);

	std::vector<void*> d;
	p->get_downloaders(d, 0);
	TEST_CHECK(d[2] == &tmp2);

	p->mark_as_downloading(piece_block(0, 3), &tmp1, piece_picker::fast);
	p->abort_download(piece_block(0, 3), &tmp1);
	p->mark_as_downloading(piece_block(0, 3), &tmp2, piece_picker::fast);
	p->mark_as_writing(piece_block(0, 3), &tmp2);

	p->get_downloaders(d, 0);
	TEST_CHECK(d[3] == &tmp2);

// ========================================================

	// make sure the block that is picked is from piece 1, since it
	// it is the piece with the lowest availability
	print_title("test pick lowest availability");
	p = setup_picker("2223333", "* * *  ", "", "");
	TEST_CHECK(test_pick(p) == 1);
	
// ========================================================

	// make sure pieces with equal priority and availability
	// are picked at random
	print_title("test random pick at same priority");
	std::map<int, int> random_prio_pieces;
	for (int i = 0; i < 100; ++i)
	{
		p = setup_picker("1111112", "       ", "", "");
		++random_prio_pieces[test_pick(p)];
	}
	TEST_CHECK(random_prio_pieces.size() == 6);
	for (std::map<int, int>::iterator i = random_prio_pieces.begin()
		, end(random_prio_pieces.end()); i != end; ++i)
		std::cout << i->first << ": " << i->second << " ";
	std::cout << std::endl;

// ========================================================

	// make sure the block that is picked is from piece 5, since it
	// has the highest priority among the available pieces
	print_title("test pick highest priority");
	p = setup_picker("1111111", "* * *  ", "1111121", "");
	TEST_CHECK(test_pick(p) == 5);

// ========================================================

	print_title("test reverse rarest first");
	p = setup_picker("4179253", "       ", "", "");
	picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, &peer_struct, piece_picker::fast
		, piece_picker::rarest_first | piece_picker::reverse, empty_vector);
	int expected_common_pieces[] = {3, 2, 5, 0, 6, 4, 1};
	for (int i = 0; i < int(picked.size()); ++i)
		TEST_CHECK(picked[i] == piece_block(expected_common_pieces[i / blocks_per_piece], i % blocks_per_piece));

	// piece 3 should be prioritized since it's a partial
	p = setup_picker("1122111", "       ", "3333333", "   1   ");
	TEST_CHECK(test_pick(p, piece_picker::rarest_first | piece_picker::reverse) == 3);

// ========================================================

	// make sure the 4 blocks are picked from the same piece if
	// whole pieces are preferred. Priority and availability is more
	// important. Piece 1 has the lowest availability even though
	// it is not a whole piece
	print_title("test pick whole pieces");
	p = setup_picker("2212222", "       ", "1111111", "1023460");
	picked = pick_pieces(p, "****** ", 1, 1, &peer_struct, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) == 3);
	for (int i = 0; i < blocks_per_piece && i < int(picked.size()); ++i)
		TEST_CHECK(picked[i].piece_index == 2);

	p = setup_picker("1111111", "       ", "1111111", "");
	picked = pick_pieces(p, "****** ", 1, 1, &peer_struct, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) == blocks_per_piece);
	for (int i = 0; i < blocks_per_piece && i < int(picked.size()); ++i)
		TEST_CHECK(picked[i].block_index == i);

	p = setup_picker("2221222", "       ", "", "");
	picked = pick_pieces(p, "*******", 1, 7, &peer_struct, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) == 7 *  blocks_per_piece);
	for (int i = 0; i < int(picked.size()); ++i)
		TEST_CHECK(picked[i] == piece_block(i / blocks_per_piece, i % blocks_per_piece));

// ========================================================

	// test the distributed copies function. It should include ourself
	// in the availability. i.e. piece 0 has availability 2.
	// there are 2 pieces with availability 2 and 5 with availability 3
	print_title("test distributed copies");
	p = setup_picker("1233333", "*      ", "", "");
	std::pair<int, int> dc = p->distributed_copies();
	TEST_CHECK(dc == std::make_pair(2, 5000 / 7));

// ========================================================
	
	// make sure filtered pieces are ignored
	print_title("test filtered pieces");
	p = setup_picker("1111111", "       ", "0010000", "");
	TEST_CHECK(test_pick(p, piece_picker::rarest_first) == 2);
	TEST_CHECK(test_pick(p, piece_picker::rarest_first | piece_picker::reverse) == 2);
	TEST_CHECK(test_pick(p, piece_picker::sequential) == 2);
	TEST_CHECK(test_pick(p, piece_picker::sequential | piece_picker::reverse) == 2);

// ========================================================
	
	// make sure we_dont_have works
	print_title("test we_dont_have");
	p = setup_picker("1111111", "*******", "0100000", "");
	TEST_CHECK(p->have_piece(1));
	TEST_CHECK(p->have_piece(2));
	p->we_dont_have(1);
	p->we_dont_have(2);
	TEST_CHECK(!p->have_piece(1));
	TEST_CHECK(!p->have_piece(2));
	picked = pick_pieces(p, "*** ** ", 1, 0, 0, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) > 0);
	TEST_CHECK(picked.front().piece_index == 1);

// ========================================================
	
	// make sure init preserves priorities
	print_title("test init");
	p = setup_picker("1111111", "       ", "1111111", "");

	TEST_CHECK(p->num_filtered() == 0);
	TEST_CHECK(p->num_have_filtered() == 0);
	TEST_CHECK(p->num_have() == 0);

	p->set_piece_priority(0, 0);
	TEST_CHECK(p->num_filtered() == 1);
	TEST_CHECK(p->num_have_filtered() == 0);
	TEST_CHECK(p->num_have() == 0);
	
	p->we_have(0);

	TEST_CHECK(p->num_filtered() == 0);
	TEST_CHECK(p->num_have_filtered() == 1);
	TEST_CHECK(p->num_have() == 1);

	p->init(blocks_per_piece, blocks_per_piece, blocks_per_piece * 7);
	TEST_CHECK(p->piece_priority(0) == 0);
	TEST_CHECK(p->num_filtered() == 1);
	TEST_CHECK(p->num_have_filtered() == 0);
	TEST_CHECK(p->num_have() == 0);

// ========================================================
	
	// make sure requested blocks aren't picked
	print_title("test don't pick requested blocks");
	p = setup_picker("1111111", "       ", "", "");
	picked = pick_pieces(p, "*******", 1, 0, 0, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) > 0);
	piece_block first = picked.front();
	p->mark_as_downloading(picked.front(), &peer_struct, piece_picker::fast);
	TEST_CHECK(p->num_peers(picked.front()) == 1);
	picked = pick_pieces(p, "*******", 1, 0, 0, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) > 0);
	TEST_CHECK(picked.front() != first);

// ========================================================

	// make sure downloading pieces have higher priority
	print_title("test downloading piece priority");
	p = setup_picker("1111111", "       ", "", "");
	picked = pick_pieces(p, "*******", 1, 0, 0, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) > 0);
	first = picked.front();
	p->mark_as_downloading(picked.front(), &peer_struct, piece_picker::fast);
	TEST_CHECK(p->num_peers(picked.front()) == 1);
	picked = pick_pieces(p, "*******", 1, 0, 0, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) > 0);
	TEST_CHECK(picked.front() != first);
	TEST_CHECK(picked.front().piece_index == first.piece_index);

// ========================================================
/*
	// make sure downloading pieces closer to completion have higher priority
	// piece 3 has only 1 block from being completed, and should be picked
	print_title("test downloading piece order");
	p = setup_picker("1111111", "       ", "", "013700f");
	picked = pick_pieces(p, "*******", 1, 0, 0, piece_picker::fast
		, options | piece_picker::prioritize_partials, empty_vector);
	TEST_CHECK(int(picked.size()) > 0);
	TEST_CHECK(picked.front() == piece_block(3, 3));
*/
// ========================================================

	// test sequential download
	print_title("test sequential download");
	p = setup_picker("7654321", "       ", "", "");
	picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, 0, piece_picker::fast
		, piece_picker::sequential, empty_vector);
	TEST_CHECK(int(picked.size()) == 7 * blocks_per_piece);
	for (int i = 0; i < int(picked.size()); ++i)
		TEST_CHECK(picked[i] == piece_block(i / blocks_per_piece, i % blocks_per_piece));

// ========================================================

	// test reverse sequential download
	print_title("test reverse sequential download");
	p = setup_picker("7654321", "       ", "", "");
	picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, 0, piece_picker::fast
		, piece_picker::sequential | piece_picker::reverse, empty_vector);
	TEST_CHECK(int(picked.size()) == 7 * blocks_per_piece);
	for (int i = 0; i < int(picked.size()); ++i)
		TEST_CHECK(picked[i] == piece_block(6 - (i / blocks_per_piece), i % blocks_per_piece));

// ========================================================

	// test cursors
	print_title("test cursors");
	p = setup_picker("7654321", "       ", "", "");
	TEST_CHECK(p->cursor() == 0);
	TEST_CHECK(p->reverse_cursor() == 7);
	p->we_have(1);
	TEST_CHECK(p->cursor() == 0);
	TEST_CHECK(p->reverse_cursor() == 7);
	p->we_have(0);
	TEST_CHECK(p->cursor() == 2);
	TEST_CHECK(p->reverse_cursor() == 7);
	p->we_have(5);
	TEST_CHECK(p->cursor() == 2);
	TEST_CHECK(p->reverse_cursor() == 7);
	p->we_have(6);
	TEST_CHECK(p->cursor() == 2);
	TEST_CHECK(p->reverse_cursor() == 5);
	p->we_have(4);
	p->we_have(3);
	p->we_have(2);
	TEST_CHECK(p->cursor() == 7);
	TEST_CHECK(p->reverse_cursor() == 0);
	p->we_dont_have(3);
	TEST_CHECK(p->cursor() == 3);
	TEST_CHECK(p->reverse_cursor() == 4);

	p = setup_picker("7654321", "       ", "", "");
	TEST_CHECK(p->cursor() == 0);
	TEST_CHECK(p->reverse_cursor() == 7);
	p->set_piece_priority(1, 0);
	TEST_CHECK(p->cursor() == 0);
	TEST_CHECK(p->reverse_cursor() == 7);
	p->set_piece_priority(0, 0);
	TEST_CHECK(p->cursor() == 2);
	TEST_CHECK(p->reverse_cursor() == 7);
	p->set_piece_priority(5, 0);
	TEST_CHECK(p->cursor() == 2);
	TEST_CHECK(p->reverse_cursor() == 7);
	p->set_piece_priority(6, 0);
	TEST_CHECK(p->cursor() == 2);
	TEST_CHECK(p->reverse_cursor() == 5);
	p->set_piece_priority(4, 0);
	p->set_piece_priority(3, 0);
	p->set_piece_priority(2, 0);
	TEST_CHECK(p->cursor() == 7);
	TEST_CHECK(p->reverse_cursor() == 0);
	p->set_piece_priority(3, 1);
	TEST_CHECK(p->cursor() == 3);
	TEST_CHECK(p->reverse_cursor() == 4);


// ========================================================

	// test piece priorities
	print_title("test piece priorities");
	p = setup_picker("5555555", "       ", "7654321", "");
	TEST_CHECK(p->num_filtered() == 0);
	TEST_CHECK(p->num_have_filtered() == 0);
	p->set_piece_priority(0, 0);
	TEST_CHECK(p->num_filtered() == 1);
	TEST_CHECK(p->num_have_filtered() == 0);
	p->mark_as_finished(piece_block(0,0), 0);
	p->we_have(0);
	TEST_CHECK(p->num_filtered() == 0);
	TEST_CHECK(p->num_have_filtered() == 1);
	
	p->we_dont_have(0);
	p->set_piece_priority(0, 7);

	picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, 0
		, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) == 7 * blocks_per_piece);

	for (int i = 0; i < int(picked.size()); ++i)
		TEST_CHECK(picked[i] == piece_block(i / blocks_per_piece, i % blocks_per_piece));
	
	// test changing priority on a piece we have
	p->we_have(0);
	p->set_piece_priority(0, 0);
	p->set_piece_priority(0, 1);
	p->set_piece_priority(0, 0);

	std::vector<int> prios;
	p->piece_priorities(prios);
	TEST_CHECK(prios.size() == 7);
	int prio_comp[] = {0, 6, 5, 4, 3, 2, 1};
	TEST_CHECK(std::equal(prios.begin(), prios.end(), prio_comp));
	
	std::vector<bool> filter;
	p->filtered_pieces(filter);
	TEST_CHECK(prios.size() == 7);
	bool filter_comp[] = {true, false, false, false, false, false, false};
	TEST_CHECK(std::equal(filter.begin(), filter.end(), filter_comp));

// ========================================================

	// test restore_piece
	print_title("test restore piece");
	p = setup_picker("1234567", "       ", "", "");
	p->mark_as_finished(piece_block(0,0), 0);
	p->mark_as_finished(piece_block(0,1), 0);
	p->mark_as_finished(piece_block(0,2), 0);
	p->mark_as_finished(piece_block(0,3), 0);

	picked = pick_pieces(p, "*******", 1, 0, 0, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) >= 1);
	TEST_CHECK(picked.front().piece_index == 1);

	p->restore_piece(0);	
	picked = pick_pieces(p, "*******", 1, 0, 0, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) >= 1);
	TEST_CHECK(picked.front().piece_index == 0);

	p->mark_as_finished(piece_block(0,0), 0);
	p->mark_as_finished(piece_block(0,1), 0);
	p->mark_as_finished(piece_block(0,2), 0);
	p->mark_as_finished(piece_block(0,3), 0);
	p->set_piece_priority(0, 0);

	picked = pick_pieces(p, "*******", 1, 0, 0, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) >= 1);
	TEST_CHECK(picked.front().piece_index == 1);

	p->restore_piece(0);	
	picked = pick_pieces(p, "*******", 1, 0, 0, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) >= 1);
	TEST_CHECK(picked.front().piece_index == 1);

	p->set_piece_priority(0, 1);
	picked = pick_pieces(p, "*******", 1, 0, 0, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) >= 1);
	TEST_CHECK(picked.front().piece_index == 0);

// ========================================================

	// test random mode
	print_title("test random pick");
	p = setup_picker("1234567", "       ", "1111122", "");
	std::set<int> random_pieces;
	for (int i = 0; i < 100; ++i)
		random_pieces.insert(test_pick(p, 0));
	TEST_CHECK(random_pieces.size() == 7);

	random_pieces.clear();
	for (int i = 0; i < 7; ++i)
	{
		int piece = test_pick(p, 0);
		p->we_have(piece);
		random_pieces.insert(piece);
	}
	TEST_CHECK(random_pieces.size() == 7);

// ========================================================

	// make sure that blocks from a slow piece are picked
	// by a fast peer if there are no other options
	print_title("test downloading piece affinity");
	p = setup_picker("1111111", "       ", "", "");
	p->mark_as_downloading(piece_block(2,2), &tmp1, piece_picker::slow);
	picked = pick_pieces(p, "*******", 7 * blocks_per_piece - 1, 0, &tmp2
		, piece_picker::fast, options | piece_picker::speed_affinity, empty_vector);
	TEST_CHECK(picked.size() == 7 * blocks_per_piece - 1);
	TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(2,2)) == picked.end());
	// piece 2 sould be the last one (least matching piece to pick)
	TEST_CHECK(picked[7 * blocks_per_piece - 2].piece_index == 2);
	TEST_CHECK(picked[7 * blocks_per_piece - 3].piece_index == 2);
	TEST_CHECK(picked[7 * blocks_per_piece - 4].piece_index == 2);

	// test the affinity of pieces with the same speed state
	p = setup_picker("1111111", "       ", "", "");
	p->mark_as_downloading(piece_block(3,2), &tmp1, piece_picker::slow);
	p->mark_as_downloading(piece_block(2,2), &tmp1, piece_picker::medium);
	p->mark_as_downloading(piece_block(4,2), &tmp1, piece_picker::fast);
	picked = pick_pieces(p, "*******", 2 * blocks_per_piece, 0, 0
		, piece_picker::fast, piece_picker::prioritize_partials | piece_picker::speed_affinity
		, empty_vector);
	TEST_CHECK(picked.size() == 2 * blocks_per_piece);
	TEST_CHECK(picked[0].piece_index == 4);
	TEST_CHECK(picked[blocks_per_piece - 1].piece_index == 2);
	TEST_CHECK(picked[2 * blocks_per_piece - 2].piece_index == 3);

// ========================================================

	// make sure the piece picker will pick pieces that
	// are already requested from other peers if it has to
	print_title("test picking downloading blocks");
	p = setup_picker("1111111", "       ", "", "");
	p->mark_as_downloading(piece_block(2,2), &tmp1, piece_picker::fast);
	p->mark_as_downloading(piece_block(1,2), &tmp1, piece_picker::slow);

	picked.clear();
	p->pick_pieces(string2vec("*******"), picked, 7 * blocks_per_piece, 0, 0
		, piece_picker::fast, piece_picker::prioritize_partials, empty_vector, 20);
	TEST_CHECK(verify_pick(p, picked, true));
	print_pick(picked);
	// don't pick both busy pieces, just one
	TEST_EQUAL(picked.size(), 7 * blocks_per_piece - 1);

	picked.clear();
	p->pick_pieces(string2vec("*******"), picked, 7 * blocks_per_piece, 0, 0
		, piece_picker::fast, piece_picker::prioritize_partials
		| piece_picker::rarest_first, empty_vector, 20);
	TEST_CHECK(verify_pick(p, picked, true));
	print_pick(picked);
	TEST_EQUAL(picked.size(), 7 * blocks_per_piece - 1);

	picked.clear();
	p->pick_pieces(string2vec("*******"), picked, 7 * blocks_per_piece, 0, 0
		, piece_picker::fast, piece_picker::rarest_first, empty_vector, 20);
	TEST_CHECK(verify_pick(p, picked, true));
	print_pick(picked);
	TEST_EQUAL(picked.size(), 7 * blocks_per_piece - 1);

// ========================================================
	
	// test clear_peer
	print_title("test clear_peer");
	p = setup_picker("1123333", "       ", "", "");
	p->mark_as_downloading(piece_block(0, 0), &tmp1, piece_picker::slow);
	p->mark_as_downloading(piece_block(0, 1), &tmp2, piece_picker::slow);
	p->mark_as_downloading(piece_block(0, 2), &tmp3, piece_picker::slow);
	p->mark_as_downloading(piece_block(1, 1), &tmp1, piece_picker::slow);
	p->mark_as_downloading(piece_block(2, 1), &tmp2, piece_picker::slow);
	p->mark_as_downloading(piece_block(3, 1), &tmp3, piece_picker::slow);

	std::vector<void*> dls;
	void* expected_dls1[] = {&tmp1, &tmp2, &tmp3, 0};
	void* expected_dls2[] = {0, &tmp1, 0, 0};
	void* expected_dls3[] = {0, &tmp2, 0, 0};
	void* expected_dls4[] = {0, &tmp3, 0, 0};
	void* expected_dls5[] = {&tmp1, 0, &tmp3, 0};
	p->get_downloaders(dls, 0);
	TEST_CHECK(std::equal(dls.begin(), dls.end(), expected_dls1));
	p->get_downloaders(dls, 1);
	TEST_CHECK(std::equal(dls.begin(), dls.end(), expected_dls2));
	p->get_downloaders(dls, 2);
	TEST_CHECK(std::equal(dls.begin(), dls.end(), expected_dls3));
	p->get_downloaders(dls, 3);
	TEST_CHECK(std::equal(dls.begin(), dls.end(), expected_dls4));

	p->clear_peer(&tmp2);
	p->get_downloaders(dls, 0);
	TEST_CHECK(std::equal(dls.begin(), dls.end(), expected_dls5));

// ========================================================
	
	// test have_all and have_none
	print_title("test have_all and have_none");
	p = setup_picker("0123333", "*      ", "", "");
	dc = p->distributed_copies();
	std::cout << "distributed copies: " << dc.first << "." << (dc.second / 1000.f) << std::endl;
	TEST_CHECK(dc == std::make_pair(1, 5000 / 7));
	p->inc_refcount_all();
	dc = p->distributed_copies();
	TEST_CHECK(dc == std::make_pair(2, 5000 / 7));
	p->dec_refcount_all();
	dc = p->distributed_copies();
	std::cout << "distributed copies: " << dc.first << "." << (dc.second / 1000.f) << std::endl;
	TEST_CHECK(dc == std::make_pair(1, 5000 / 7));
	p->inc_refcount(0);
	p->dec_refcount_all();
	dc = p->distributed_copies();
	std::cout << "distributed copies: " << dc.first << "." << (dc.second / 1000.f) << std::endl;
	TEST_CHECK(dc == std::make_pair(0, 6000 / 7));
	TEST_CHECK(test_pick(p) == 2);

// ========================================================
	
	// test have_all and have_none
	print_title("test have_all and have_none with sequential download");
	p = setup_picker("0123333", "*      ", "", "");
	dc = p->distributed_copies();
	std::cout << "distributed copies: " << dc.first << "." << (dc.second / 1000.f) << std::endl;
	TEST_CHECK(dc == std::make_pair(1, 5000 / 7));
	p->inc_refcount_all();
	dc = p->distributed_copies();
	std::cout << "distributed copies: " << dc.first << "." << (dc.second / 1000.f) << std::endl;
	TEST_CHECK(dc == std::make_pair(2, 5000 / 7));
	TEST_CHECK(test_pick(p) == 1);

// ========================================================

	// test inc_ref and dec_ref
	print_title("test inc_ref dec_ref");
	p = setup_picker("1233333", "     * ", "", "");
	TEST_CHECK(test_pick(p) == 0);

	p->dec_refcount(0);
	TEST_CHECK(test_pick(p) == 1);

	p->dec_refcount(4);
	p->dec_refcount(4);
	TEST_CHECK(test_pick(p) == 4);

	// decrease refcount on something that's not in the piece list
	p->dec_refcount(5);
	p->inc_refcount(5);
	
	bitfield bits(7);
	bits.clear_all();
	bits.set_bit(0);
	p->inc_refcount(bits);
	bits.clear_all();
	bits.set_bit(4);
	p->dec_refcount(bits);
	TEST_CHECK(test_pick(p) == 0);

// ========================================================
	
	// test unverified_blocks, marking blocks and get_downloader
	print_title("test unverified blocks");
	p = setup_picker("1111111", "       ", "", "0300700");
	TEST_CHECK(p->unverified_blocks() == 2 + 3);
	TEST_CHECK(p->get_downloader(piece_block(4, 0)) == 0);
	TEST_CHECK(p->get_downloader(piece_block(4, 1)) == 0);
	TEST_CHECK(p->get_downloader(piece_block(4, 2)) == 0);
	TEST_CHECK(p->get_downloader(piece_block(4, 3)) == 0);
	p->mark_as_downloading(piece_block(4, 3), &peer_struct, piece_picker::fast);
	TEST_CHECK(p->get_downloader(piece_block(4, 3)) == &peer_struct);
	p->piece_info(4, st);
	TEST_CHECK(st.requested == 1);
	TEST_CHECK(st.writing == 0);
	TEST_CHECK(st.finished == 3);
	TEST_CHECK(p->unverified_blocks() == 2 + 3);
	p->mark_as_writing(piece_block(4, 3), &peer_struct);
	TEST_CHECK(p->get_downloader(piece_block(4, 3)) == &peer_struct);
	p->piece_info(4, st);
	TEST_CHECK(st.requested == 0);
	TEST_CHECK(st.writing == 1);
	TEST_CHECK(st.finished == 3);
	TEST_CHECK(p->unverified_blocks() == 2 + 3);
	p->mark_as_finished(piece_block(4, 3), &peer_struct);
	TEST_CHECK(p->get_downloader(piece_block(4, 3)) == &peer_struct);
	p->piece_info(4, st);
	TEST_CHECK(st.requested == 0);
	TEST_CHECK(st.writing == 0);
	TEST_CHECK(st.finished == 4);
	TEST_CHECK(p->unverified_blocks() == 2 + 4);
	p->we_have(4);
	p->piece_info(4, st);
	TEST_CHECK(st.requested == 0);
	TEST_CHECK(st.writing == 0);
	TEST_CHECK(st.finished == 4);
	TEST_CHECK(p->get_downloader(piece_block(4, 3)) == 0);
	TEST_CHECK(p->unverified_blocks() == 2);

// ========================================================
	
	// test prefer_whole_pieces
	print_title("test prefer whole pieces");
	p = setup_picker("1111111", "       ", "", "");
	picked = pick_pieces(p, "*******", 1, 3, 0, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) >= 3 * blocks_per_piece);
	piece_block b = picked.front();
	for (int i = 1; i < int(picked.size()); ++i)
	{
		TEST_CHECK(picked[i].piece_index * blocks_per_piece + picked[i].block_index
			== b.piece_index * blocks_per_piece + b.block_index + 1);
		b = picked[i];
	}

	picked = pick_pieces(p, "*******", 1, 3, 0, piece_picker::fast, options, empty_vector);
	TEST_CHECK(int(picked.size()) >= 3 * blocks_per_piece);
	b = picked.front();
	for (int i = 1; i < int(picked.size()); ++i)
	{
		TEST_CHECK(picked[i].piece_index * blocks_per_piece + picked[i].block_index
			== b.piece_index * blocks_per_piece + b.block_index + 1);
		b = picked[i];
	}

	// make sure pieces that don't match the 'whole pieces' requirement
	// are picked if there's no other choice
	p = setup_picker("1111111", "       ", "", "");
	p->mark_as_downloading(piece_block(2,2), &tmp1, piece_picker::fast);
	picked = pick_pieces(p, "*******", 7 * blocks_per_piece - 1, 1, 0
		, piece_picker::fast, options, empty_vector);
	TEST_CHECK(picked.size() == 7 * blocks_per_piece - 1);
	TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(2,2)) == picked.end());

//#error test picking with partial pieces and other peers present so that both backup_pieces and backup_pieces2 are used
	
// ========================================================

	// test parole mode
	print_title("test parole mode");
	p = setup_picker("3333133", "       ", "", "");
	p->mark_as_finished(piece_block(0, 0), 0);
	picked = pick_pieces(p, "*******", 1, 1, 0, piece_picker::fast
		, options | piece_picker::on_parole | piece_picker::prioritize_partials, empty_vector);
	TEST_CHECK(int(picked.size()) == blocks_per_piece - 1);
	for (int i = 1; i < int(picked.size()); ++i)
		TEST_CHECK(picked[i] == piece_block(0, i + 1));

	//	make sure that the partial piece is not picked by a
	// peer that is has not downloaded/requested the other blocks
	picked = pick_pieces(p, "*******", 1, 1, &peer_struct, piece_picker::fast
		, options | piece_picker::on_parole | piece_picker::prioritize_partials, empty_vector);
	TEST_CHECK(int(picked.size()) == blocks_per_piece);
	for (int i = 1; i < int(picked.size()); ++i)
		TEST_CHECK(picked[i] == piece_block(4, i));

// ========================================================

	// test suggested pieces
	print_title("test suggested pieces");
	p = setup_picker("1111222233334444", "                ", "", "");
	int v[] = {1, 5};
	std::vector<int> suggested_pieces(v, v + 2);
	
	picked = pick_pieces(p, "****************", 1, 1, 0, piece_picker::fast, options, suggested_pieces);
	TEST_CHECK(int(picked.size()) >= blocks_per_piece);
	for (int i = 1; i < int(picked.size()); ++i)
		TEST_CHECK(picked[i] == piece_block(1, i));
	p->set_piece_priority(0, 0);
	p->set_piece_priority(1, 0);
	p->set_piece_priority(2, 0);
	p->set_piece_priority(3, 0);

	picked = pick_pieces(p, "****************", 1, 1, 0, piece_picker::fast, options, suggested_pieces);
	TEST_CHECK(int(picked.size()) >= blocks_per_piece);
	for (int i = 1; i < int(picked.size()); ++i)
		TEST_CHECK(picked[i] == piece_block(5, i));

	p = setup_picker("1111222233334444", "****            ", "", "");
	picked = pick_pieces(p, "****************", 1, 1, 0, piece_picker::fast, options, suggested_pieces);
	TEST_CHECK(int(picked.size()) >= blocks_per_piece);
	for (int i = 1; i < int(picked.size()); ++i)
		TEST_CHECK(picked[i] == piece_block(5, i));
	
// ========================================================

	// test seed optimizaton
	print_title("test seed optimization");
	p = setup_picker("0000000000000000", "                ", "", "");

	// make sure it's not dirty
	pick_pieces(p, "****************", 1, 1, 0, piece_picker::fast, options, empty_vector);

	p->inc_refcount_all();
	print_availability(p);
	TEST_CHECK(verify_availability(p, "1111111111111111"));

	// make sure it's not dirty
	pick_pieces(p, "****************", 1, 1, 0, piece_picker::fast, options, empty_vector);
	p->dec_refcount(string2vec("  ****  **      "));
	print_availability(p);
	TEST_CHECK(verify_availability(p, "1100001100111111"));

	// make sure it's not dirty
	pick_pieces(p, "****************", 1, 1, 0, piece_picker::fast, options, empty_vector);
	p->inc_refcount(string2vec("  ****  **      "));
	TEST_CHECK(verify_availability(p, "1111111111111111"));

	// make sure it's not dirty
	pick_pieces(p, "****************", 1, 1, 0, piece_picker::fast, options, empty_vector);
	p->dec_refcount_all();
	TEST_CHECK(verify_availability(p, "0000000000000000"));

	p->inc_refcount_all();
	print_availability(p);
	TEST_CHECK(verify_availability(p, "1111111111111111"));

	// make sure it's not dirty
	pick_pieces(p, "****************", 1, 1, 0, piece_picker::fast, options, empty_vector);
	p->dec_refcount(3);
	print_availability(p);
	TEST_CHECK(verify_availability(p, "1110111111111111"));

// MISSING TESTS:
// 1. abort_download
// 2. write_failed

/*

	p.pick_pieces(peer1, picked, 1, false, 0, piece_picker::fast, true);
	TEST_CHECK(int(picked.size()) == 1);
	TEST_CHECK(picked.front().piece_index == 2);

	// now pick a piece from peer2. The block is supposed to be
	// from piece 3, since it is the rarest piece that peer has.
	picked.clear();
	p.pick_pieces(peer2, picked, 1, false, 0, piece_picker::fast, true);
	TEST_CHECK(int(picked.size()) == 1);
	TEST_CHECK(picked.front().piece_index == 3);

	// same thing for peer3.

	picked.clear();
	p.pick_pieces(peer3, picked, 1, false, 0, piece_picker::fast, true);
	TEST_CHECK(int(picked.size()) == 1);
	TEST_CHECK(picked.front().piece_index == 5);

	// now, if all peers would have piece 1 (the piece we have partially)
	// it should be prioritized over picking a completely new piece.
	peer3[1] = true;
	p.inc_refcount(1);
	
	picked.clear();
	p.pick_pieces(peer3, picked, 1, false, 0, piece_picker::fast, true);
	TEST_CHECK(int(picked.size()) == 1);
	TEST_CHECK(picked.front().piece_index == 1);
	// and the block picked should not be 0 or 2
	// since we already have those blocks

	TEST_CHECK(picked.front().block_index != 0);
	TEST_CHECK(picked.front().block_index != 2);

	// now, if we mark piece 1 and block 0 in piece 2
	// as being downloaded and picks a block from peer1,
	// it should pick a block from piece 2. But since
	// block 0 is marked as requested from another peer,
	// the piece_picker will continue to pick blocks
	// until it can return at least 1 block (since we
	// tell it we want one block) that is not being
	// downloaded from anyone else. This is to make it
	// possible for us to determine if we want to request
	// the block from more than one peer.
	// Both piece 1 and 2 are partial pieces, but pice
	// 2 is the rarest, so that's why it is picked.

	// we have block 0 and 2 already, so we can't mark
	// them as begin downloaded. 
	p.mark_as_downloading(piece_block(1, 1), &peer_struct, piece_picker::fast);
	p.mark_as_downloading(piece_block(1, 3), &peer_struct, piece_picker::fast);
	p.mark_as_downloading(piece_block(2, 0), &peer_struct, piece_picker::fast);

	std::vector<piece_picker::downloading_piece> const& downloads = p.get_download_queue();
	TEST_CHECK(downloads.size() == 2);
	TEST_CHECK(downloads[0].index == 1);
	TEST_CHECK(downloads[0].info[0].state == piece_picker::block_info::state_finished);
	TEST_CHECK(downloads[0].info[1].state == piece_picker::block_info::state_requested);
	TEST_CHECK(downloads[0].info[2].state == piece_picker::block_info::state_finished);
	TEST_CHECK(downloads[0].info[3].state == piece_picker::block_info::state_requested);

	TEST_CHECK(downloads[1].index == 2);
	TEST_CHECK(downloads[1].info[0].state == piece_picker::block_info::state_requested);
	TEST_CHECK(downloads[1].info[1].state == piece_picker::block_info::state_none);
	TEST_CHECK(downloads[1].info[2].state == piece_picker::block_info::state_none);
	TEST_CHECK(downloads[1].info[3].state == piece_picker::block_info::state_none);

	TEST_CHECK(p.is_requested(piece_block(1, 1)));
	TEST_CHECK(p.is_requested(piece_block(1, 3)));
	TEST_CHECK(p.is_requested(piece_block(2, 0)));
	TEST_CHECK(!p.is_requested(piece_block(2, 1)));

	picked.clear();
	p.pick_pieces(peer1, picked, 1, false, 0, piece_picker::fast, true);
	TEST_CHECK(int(picked.size()) == 2);

	piece_block expected3[] = { piece_block(2, 0), piece_block(2, 1) };
	TEST_CHECK(std::equal(picked.begin()
		, picked.end(), expected3));

	// now, if we assume we're downloading at such a speed that
	// we might prefer to download whole pieces at a time from
	// this peer. It should not pick piece 1 or 2 (since those are
	// partially selected)

	picked.clear();
	p.pick_pieces(peer1, picked, 1, true, 0, piece_picker::fast, true);

	// it will pick 4 blocks, since we said we
	// wanted whole pieces.
	TEST_CHECK(int(picked.size()) == 4);

	piece_block expected4[] =
	{
		piece_block(3, 0), piece_block(3, 1)
		, piece_block(3, 2), piece_block(3, 3)
	};

	TEST_CHECK(std::equal(picked.begin()
		, picked.end(), expected4));

	// now, try the same thing, but pick as many pieces as possible
	// to make sure it can still fall back on partial pieces

	picked.clear();
	p.pick_pieces(peer1, picked, 100, true, 0, piece_picker::fast, true);

	TEST_CHECK(int(picked.size()) == 12);

	piece_block expected5[] =
	{
		piece_block(3, 0), piece_block(3, 1)
		, piece_block(3, 2), piece_block(3, 3)
		, piece_block(5, 0), piece_block(5, 1)
		, piece_block(5, 2), piece_block(5, 3)
		, piece_block(2, 0), piece_block(2, 1)
		, piece_block(2, 2), piece_block(2, 3)
	};

	TEST_CHECK(std::equal(picked.begin()
		, picked.end(), expected5));

	// now, try the same thing, but pick as many pieces as possible
	// to make sure it can still fall back on partial pieces

	picked.clear();
	p.pick_pieces(peer1, picked, 100, true, &peer_struct, piece_picker::fast, true);

	TEST_CHECK(int(picked.size()) == 11);

	piece_block expected6[] =
	{
		piece_block(2, 1), piece_block(2, 2)
		, piece_block(2, 3)
		, piece_block(3, 0), piece_block(3, 1)
		, piece_block(3, 2), piece_block(3, 3)
		, piece_block(5, 0), piece_block(5, 1)
		, piece_block(5, 2), piece_block(5, 3)
	};

	TEST_CHECK(std::equal(picked.begin()
		, picked.end(), expected6));

	// make sure the piece picker allows filtered pieces
	// to become available
	p.mark_as_finished(piece_block(4, 2), 0);
*/
	return 0;
}