#pragma once #include #include #include #include #include #include namespace DB { class IBlockInputStream; using BlockInputStreamPtr = std::shared_ptr; using BlockInputStreams = std::vector; class TableStructureReadLock; using TableStructureReadLockPtr = std::shared_ptr; using TableStructureReadLocks = std::vector; using TableStructureReadLocksList = std::list; struct Progress; namespace ErrorCodes { extern const int OUTPUT_IS_NOT_SORTED; extern const int NOT_IMPLEMENTED; } /** Callback to track the progress of the query. * Used in IProfilingBlockInputStream and Context. * The function takes the number of rows in the last block, the number of bytes in the last block. * Note that the callback can be called from different threads. */ using ProgressCallback = std::function; /** The stream interface for reading data by blocks from the database. * Relational operations are supposed to be done also as implementations of this interface. */ class IBlockInputStream : private boost::noncopyable { public: IBlockInputStream() {} /** Get data structure of the stream in a form of "header" block (it is also called "sample block"). * Header block contains column names, data types, columns of size 0. Constant columns must have corresponding values. * It is guaranteed that method "read" returns blocks of exactly that structure. */ virtual Block getHeader() const = 0; /** Read next block. * If there are no more blocks, return an empty block (for which operator `bool` returns false). * NOTE: Only one thread can read from one instance of IBlockInputStream simultaneously. * This also applies for readPrefix, readSuffix. */ virtual Block read() = 0; /** Get information about the last block received. */ virtual BlockExtraInfo getBlockExtraInfo() const { throw Exception("Method getBlockExtraInfo is not supported by the data stream " + getName(), ErrorCodes::NOT_IMPLEMENTED); } /** Read something before starting all data or after the end of all data. * In the `readSuffix` function, you can implement a finalization that can lead to an exception. * readPrefix() must be called before the first call to read(). * readSuffix() should be called after read() returns an empty block, or after a call to cancel(), but not during read() execution. */ virtual void readPrefix() {} virtual void readSuffix() {} virtual ~IBlockInputStream() {} /** To output the data stream transformation tree (query execution plan). */ virtual String getName() const = 0; /// If this stream generates data in grouped by some keys, return true. virtual bool isGroupedOutput() const { return false; } /// If this stream generates data in order by some keys, return true. virtual bool isSortedOutput() const { return false; } /// In case of isGroupedOutput or isSortedOutput, return corresponding SortDescription virtual const SortDescription & getSortDescription() const { throw Exception("Output of " + getName() + " is not sorted", ErrorCodes::OUTPUT_IS_NOT_SORTED); } BlockInputStreams & getChildren() { return children; } void dumpTree(std::ostream & ostr, size_t indent = 0, size_t multiplier = 1); /// Get leaf sources (not including this one). BlockInputStreams getLeaves(); /// Get the number of rows and bytes read in the leaf sources. void getLeafRowsBytes(size_t & rows, size_t & bytes); /** Check the depth of the pipeline. * If max_depth is specified and the `depth` is greater - throw an exception. */ size_t checkDepth(size_t max_depth) const; /** Do not allow to change the table while the blocks stream is alive. */ void addTableLock(const TableStructureReadLockPtr & lock) { table_locks.push_back(lock); } protected: TableStructureReadLocks table_locks; BlockInputStreams children; private: void getLeavesImpl(BlockInputStreams & res, const BlockInputStreamPtr & this_shared_ptr); size_t checkDepthImpl(size_t max_depth, size_t level) const; /// Get text with names of this source and the entire subtree. String getTreeID() const; }; }