ClickHouse/dbms/IO/PeekableReadBuffer.cpp
Ivan 97f2a2213e
Move all folders inside /dbms one level up (#9974)
* Move some code outside dbms/src folder
* Fix paths
2020-04-02 02:51:21 +03:00

262 lines
8.5 KiB
C++

#include <IO/PeekableReadBuffer.h>
namespace DB
{
namespace ErrorCodes
{
extern const int MEMORY_LIMIT_EXCEEDED;
extern const int LOGICAL_ERROR;
}
PeekableReadBuffer::PeekableReadBuffer(ReadBuffer & sub_buf_, size_t start_size_ /*= DBMS_DEFAULT_BUFFER_SIZE*/,
size_t unread_limit_ /* = default_limit*/)
: BufferWithOwnMemory(start_size_), sub_buf(sub_buf_), unread_limit(unread_limit_)
{
padded &= sub_buf.isPadded();
/// Read from sub-buffer
Buffer & sub_working = sub_buf.buffer();
BufferBase::set(sub_working.begin(), sub_working.size(), sub_buf.offset());
checkStateCorrect();
}
bool PeekableReadBuffer::peekNext()
{
checkStateCorrect();
Position copy_from = pos;
size_t bytes_to_copy = sub_buf.available();
if (useSubbufferOnly())
{
/// Don't have to copy all data from sub-buffer if there is no data in own memory (checkpoint and pos are in sub-buffer)
if (checkpoint)
copy_from = checkpoint;
bytes_to_copy = sub_buf.buffer().end() - copy_from;
if (!bytes_to_copy)
{
sub_buf.position() = copy_from;
/// Both checkpoint and pos are at the end of sub-buffer. Just load next part of data.
bool res = sub_buf.next();
BufferBase::set(sub_buf.buffer().begin(), sub_buf.buffer().size(), sub_buf.offset());
if (checkpoint)
checkpoint = pos;
checkStateCorrect();
return res;
}
}
/// May throw an exception
resizeOwnMemoryIfNecessary(bytes_to_copy);
if (useSubbufferOnly())
{
sub_buf.position() = copy_from;
}
/// Save unread data from sub-buffer to own memory
memcpy(memory.data() + peeked_size, sub_buf.position(), bytes_to_copy);
/// If useSubbufferOnly() is false, then checkpoint is in own memory and it was updated in resizeOwnMemoryIfNecessary
/// Otherwise, checkpoint now at the beginning of own memory
if (checkpoint && useSubbufferOnly())
{
checkpoint = memory.data();
checkpoint_in_own_memory = true;
}
if (currentlyReadFromOwnMemory())
{
/// Update buffer size
BufferBase::set(memory.data(), peeked_size + bytes_to_copy, offset());
}
else
{
/// Switch to reading from own memory
size_t pos_offset = peeked_size + this->offset();
if (useSubbufferOnly())
{
if (checkpoint)
pos_offset = bytes_to_copy;
else
pos_offset = 0;
}
BufferBase::set(memory.data(), peeked_size + bytes_to_copy, pos_offset);
}
peeked_size += bytes_to_copy;
sub_buf.position() += bytes_to_copy;
checkStateCorrect();
return sub_buf.next();
}
void PeekableReadBuffer::rollbackToCheckpoint()
{
checkStateCorrect();
if (!checkpoint)
throw DB::Exception("There is no checkpoint", ErrorCodes::LOGICAL_ERROR);
else if (checkpointInOwnMemory() == currentlyReadFromOwnMemory())
pos = checkpoint;
else /// Checkpoint is in own memory and pos is not. Switch to reading from own memory
BufferBase::set(memory.data(), peeked_size, checkpoint - memory.data());
checkStateCorrect();
}
bool PeekableReadBuffer::nextImpl()
{
/// FIXME wrong bytes count because it can read the same data again after rollbackToCheckpoint()
/// However, changing bytes count on every call of next() (even after rollback) allows to determine if some pointers were invalidated.
checkStateCorrect();
bool res;
if (checkpoint)
{
if (currentlyReadFromOwnMemory())
res = sub_buf.hasPendingData() || sub_buf.next();
else
res = peekNext();
}
else
{
if (useSubbufferOnly())
{
/// Load next data to sub_buf
sub_buf.position() = pos;
res = sub_buf.next();
}
else
{
/// All copied data have been read from own memory, continue reading from sub_buf
peeked_size = 0;
res = sub_buf.hasPendingData() || sub_buf.next();
}
}
/// Switch to reading from sub_buf (or just update it if already switched)
Buffer & sub_working = sub_buf.buffer();
BufferBase::set(sub_working.begin(), sub_working.size(), sub_buf.offset());
working_buffer_offset = sub_buf.offset();
checkStateCorrect();
return res;
}
void PeekableReadBuffer::checkStateCorrect() const
{
#ifndef NDEBUG
if (checkpoint)
{
if (checkpointInOwnMemory())
{
if (!peeked_size)
throw DB::Exception("Checkpoint in empty own buffer", ErrorCodes::LOGICAL_ERROR);
if (currentlyReadFromOwnMemory() && pos < checkpoint)
throw DB::Exception("Current position in own buffer before checkpoint in own buffer", ErrorCodes::LOGICAL_ERROR);
if (!currentlyReadFromOwnMemory() && pos < sub_buf.position())
throw DB::Exception("Current position in subbuffer less than sub_buf.position()", ErrorCodes::LOGICAL_ERROR);
}
else
{
if (peeked_size)
throw DB::Exception("Own buffer is not empty", ErrorCodes::LOGICAL_ERROR);
if (currentlyReadFromOwnMemory())
throw DB::Exception("Current position in own buffer before checkpoint in subbuffer", ErrorCodes::LOGICAL_ERROR);
if (pos < checkpoint)
throw DB::Exception("Current position in subbuffer before checkpoint in subbuffer", ErrorCodes::LOGICAL_ERROR);
}
}
else
{
if (!currentlyReadFromOwnMemory() && peeked_size)
throw DB::Exception("Own buffer is not empty", ErrorCodes::LOGICAL_ERROR);
}
if (currentlyReadFromOwnMemory() && !peeked_size)
throw DB::Exception("Pos in empty own buffer", ErrorCodes::LOGICAL_ERROR);
if (unread_limit < memory.size())
throw DB::Exception("Size limit exceed", ErrorCodes::LOGICAL_ERROR);
#endif
}
void PeekableReadBuffer::resizeOwnMemoryIfNecessary(size_t bytes_to_append)
{
checkStateCorrect();
bool need_update_checkpoint = checkpointInOwnMemory();
bool need_update_pos = currentlyReadFromOwnMemory();
size_t offset = 0;
if (need_update_checkpoint)
offset = checkpoint - memory.data();
else if (need_update_pos)
offset = this->offset();
size_t new_size = peeked_size + bytes_to_append;
if (memory.size() < new_size)
{
if (bytes_to_append < offset && 2 * (peeked_size - offset) <= memory.size())
{
/// Move unread data to the beginning of own memory instead of resize own memory
peeked_size -= offset;
memmove(memory.data(), memory.data() + offset, peeked_size);
if (need_update_checkpoint)
checkpoint -= offset;
if (need_update_pos)
pos -= offset;
}
else
{
if (unread_limit < new_size)
throw DB::Exception("PeekableReadBuffer: Memory limit exceed", ErrorCodes::MEMORY_LIMIT_EXCEEDED);
size_t pos_offset = pos - memory.data();
size_t new_size_amortized = memory.size() * 2;
if (new_size_amortized < new_size)
new_size_amortized = new_size;
else if (unread_limit < new_size_amortized)
new_size_amortized = unread_limit;
memory.resize(new_size_amortized);
if (need_update_checkpoint)
checkpoint = memory.data() + offset;
if (need_update_pos)
{
BufferBase::set(memory.data(), peeked_size, pos_offset);
}
}
}
checkStateCorrect();
}
void PeekableReadBuffer::makeContinuousMemoryFromCheckpointToPos()
{
#ifndef NDEBUG
if (!checkpoint)
throw DB::Exception("There is no checkpoint", ErrorCodes::LOGICAL_ERROR);
checkStateCorrect();
#endif
if (!checkpointInOwnMemory() || currentlyReadFromOwnMemory())
return; /// is't already continuous
size_t bytes_to_append = pos - sub_buf.position();
resizeOwnMemoryIfNecessary(bytes_to_append);
memcpy(memory.data() + peeked_size, sub_buf.position(), bytes_to_append);
sub_buf.position() = pos;
peeked_size += bytes_to_append;
}
PeekableReadBuffer::~PeekableReadBuffer()
{
if (!currentlyReadFromOwnMemory())
sub_buf.position() = pos;
}
bool PeekableReadBuffer::hasUnreadData() const
{
return peeked_size && pos != memory.data() + peeked_size;
}
}