#pragma once #include #include namespace DB { /// Reads from the concatenation of multiple ReadBuffer's class ConcatReadBuffer : public ReadBuffer { public: using Buffers = std::vector>; ConcatReadBuffer() : ReadBuffer(nullptr, 0), current(buffers.end()) { } explicit ConcatReadBuffer(Buffers && buffers_) : ReadBuffer(nullptr, 0), buffers(std::move(buffers_)), current(buffers.begin()) { assert(!buffers.empty()); } ConcatReadBuffer(ReadBuffer & buf1, ReadBuffer & buf2) : ConcatReadBuffer() { appendBuffer(wrapReadBufferReference(buf1)); appendBuffer(wrapReadBufferReference(buf2)); } void appendBuffer(std::unique_ptr buffer) { assert(!count()); buffers.push_back(std::move(buffer)); current = buffers.begin(); } protected: Buffers buffers; Buffers::iterator current; bool nextImpl() override { if (buffers.end() == current) return false; /// First reading if (working_buffer.empty()) { if ((*current)->hasPendingData()) { working_buffer = Buffer((*current)->position(), (*current)->buffer().end()); return true; } } else (*current)->position() = position(); if (!(*current)->next()) { ++current; if (buffers.end() == current) return false; /// We skip the filled up buffers; if the buffer is not filled in, but the cursor is at the end, then read the next piece of data. while ((*current)->eof()) { ++current; if (buffers.end() == current) return false; } } working_buffer = Buffer((*current)->position(), (*current)->buffer().end()); return true; } }; }