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transmission/libtransmission/completion.cc

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/*
* This file Copyright (C) Mnemosyne LLC
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*
* It may be used under the GNU GPL versions 2 or 3
* or any future license endorsed by Mnemosyne LLC.
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*
*/
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#include <algorithm>
#include <vector>
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#include "transmission.h"
#include "completion.h"
#include "torrent.h"
#include "tr-assert.h"
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uint64_t tr_completion::leftUntilDone() const
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{
auto const size_when_done = sizeWhenDone();
auto const has_total = hasTotal();
return size_when_done - has_total;
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}
uint64_t tr_completion::computeHasValid() const
{
uint64_t size = 0;
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for (tr_piece_index_t piece = 0, n = block_info_->n_pieces; piece < n; ++piece)
{
if (hasPiece(piece))
{
size += block_info_->pieceSize(piece);
}
}
return size;
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}
uint64_t tr_completion::hasValid() const
{
if (!has_valid_)
{
has_valid_ = computeHasValid();
}
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return *has_valid_;
}
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uint64_t tr_completion::computeSizeWhenDone() const
{
if (hasAll())
{
return block_info_->total_size;
}
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// count bytes that we want or that we already have
auto size = size_t{ 0 };
for (tr_piece_index_t piece = 0; piece < block_info_->n_pieces; ++piece)
{
if (!tor_->pieceIsDnd(piece))
{
size += block_info_->pieceSize(piece);
}
else
{
size += countHasBytesInSpan(block_info_->blockSpanForPiece(piece));
}
}
return size;
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}
uint64_t tr_completion::sizeWhenDone() const
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{
if (!size_when_done_)
{
size_when_done_ = computeSizeWhenDone();
}
return *size_when_done_;
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}
void tr_completion::amountDone(float* tab, size_t n_tabs) const
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{
if (n_tabs < 1)
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{
return;
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}
auto const blocks_per_tab = std::size(blocks_) / n_tabs;
for (size_t i = 0; i < n_tabs; ++i)
{
auto const begin = i * n_tabs;
auto const end = std::min(begin + blocks_per_tab, std::size(blocks_));
auto const numerator = blocks_.count(begin, end);
tab[i] = (double)numerator / (end - begin);
}
}
size_t tr_completion::countMissingBlocksInPiece(tr_piece_index_t piece) const
{
auto const [begin, end] = block_info_->blockSpanForPiece(piece);
return (end - begin) - blocks_.count(begin, end);
}
size_t tr_completion::countMissingBytesInPiece(tr_piece_index_t piece) const
{
return block_info_->pieceSize(piece) - countHasBytesInSpan(block_info_->blockSpanForPiece(piece));
}
tr_completeness tr_completion::status() const
{
if (!hasMetainfo())
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{
return TR_LEECH;
}
if (hasAll())
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{
return TR_SEED;
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}
if (size_now_ == sizeWhenDone())
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{
return TR_PARTIAL_SEED;
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}
return TR_LEECH;
}
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std::vector<uint8_t> tr_completion::createPieceBitfield() const
{
size_t const n = block_info_->n_pieces;
auto pieces = tr_bitfield{ n };
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bool* const flags = new bool[n];
for (tr_piece_index_t piece = 0; piece < n; ++piece)
{
flags[piece] = hasPiece(piece);
}
pieces.setFromBools(flags, n);
delete[] flags;
return pieces.raw();
}
/// mutators
void tr_completion::addBlock(tr_block_index_t block)
{
if (hasBlock(block))
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{
return; // already had it
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}
blocks_.set(block);
size_now_ += block_info_->blockSize(block);
has_valid_.reset();
}
void tr_completion::setBlocks(tr_bitfield blocks)
{
TR_ASSERT(std::size(blocks_) == std::size(blocks));
blocks_ = std::move(blocks);
size_now_ = countHasBytesInSpan({ 0, tr_block_index_t(std::size(blocks_)) });
size_when_done_.reset();
has_valid_.reset();
}
void tr_completion::addPiece(tr_piece_index_t piece)
{
auto const [begin, end] = block_info_->blockSpanForPiece(piece);
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for (tr_block_index_t block = begin; block < end; ++block)
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{
addBlock(block);
}
}
void tr_completion::removePiece(tr_piece_index_t piece)
{
auto const [begin, end] = block_info_->blockSpanForPiece(piece);
size_now_ -= countHasBytesInSpan(block_info_->blockSpanForPiece(piece));
has_valid_.reset();
blocks_.unsetSpan(begin, end);
}
uint64_t tr_completion::countHasBytesInSpan(tr_block_span_t span) const
{
auto const [begin, end] = span;
auto n = blocks_.count(begin, end);
n *= block_info_->block_size;
if (end == block_info_->n_blocks && blocks_.test(end - 1))
{
n -= block_info_->block_size - block_info_->final_block_size;
}
return n;
}