mirror of
https://github.com/matrix-construct/construct
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320 lines
11 KiB
C++
320 lines
11 KiB
C++
// Matrix Construct
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//
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// Copyright (C) Matrix Construct Developers, Authors & Contributors
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// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>
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//
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// Permission to use, copy, modify, and/or distribute this software for any
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// purpose with or without fee is hereby granted, provided that the above
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// copyright notice and this permission notice is present in all copies. The
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// full license for this software is available in the LICENSE file.
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#pragma once
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#define HAVE_IRCD_DB_COLUMN_H
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namespace ircd::db
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{
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struct column;
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// Information about a column
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uint32_t id(const column &);
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const std::string &name(const column &);
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const descriptor &describe(const column &);
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std::vector<std::string> files(const column &);
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size_t file_count(const column &);
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size_t bytes(const column &);
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options getopt(const column &);
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// Get property data of a db column. R can optionally be uint64_t for some
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// values; we typedef that as prop_int for templating purposes. R can also
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// be an std::string which we typedef as prop_str. Refer to RocksDB
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// documentation for more info.
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template<class R = prop_str> R property(const column &, const string_view &name);
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template<> prop_str property(const column &, const string_view &name);
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template<> prop_int property(const column &, const string_view &name);
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template<> prop_map property(const column &, const string_view &name);
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// Access to the column's caches (see cache.h interface)
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const rocksdb::Cache *cache_compressed(const column &);
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const rocksdb::Cache *cache(const column &);
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rocksdb::Cache *cache_compressed(column &);
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rocksdb::Cache *cache(column &);
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// [GET] Tests if key exists
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bool has(column &, const string_view &key, const gopts & = {});
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bool cached(column &, const string_view &key, const gopts & = {});
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void prefetch(column &, const string_view &key, const gopts & = {});
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// [GET] Convenience functions to copy data into your buffer.
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string_view read(column &, const string_view &key, const mutable_buffer &, const gopts & = {});
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std::string read(column &, const string_view &key, const gopts & = {});
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// [GET] Nothrow convenience functions to copy data into your buffer; since
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// a key can exist with an empty value we must overload on this bool here.
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string_view read(column &, const string_view &key, bool &found, const mutable_buffer &, const gopts & = {});
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std::string read(column &, const string_view &key, bool &found, const gopts & = {});
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// [SET] Write data to the db
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void write(column &, const string_view &key, const const_buffer &value, const sopts & = {});
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// [SET] Remove data from the db. not_found is never thrown.
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void del(column &, const string_view &key, const sopts & = {});
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// [SET] Other operations
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void ingest(column &, const string_view &path);
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void setopt(column &, const string_view &key, const string_view &val);
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void compact(column &, const std::pair<string_view, string_view> &, const int &to_level = -1, const compactor & = {});
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void compact(column &, const std::pair<int, int> &level = {-1, -1}, const compactor & = {});
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void sort(column &, const bool &blocking = false, const bool &now = false);
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void drop(column &); // danger
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}
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/// Columns add the ability to run multiple LevelDB's in synchrony under the same
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/// database (directory). Each column is a fully distinct key/value store; they
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/// are merely joined for consistency and possible performance advantages for
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/// concurrent multi-column lookups of the same key.
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///
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/// This class is a handle to the real column instance `database::column` because the
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/// real column instance has to have a lifetime congruent to the open database. But
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/// that makes this object easier to work with, pass around, and construct. It will
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/// find the real `database::column` at any time.
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///
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/// [GET] If the data is not cached, your ircd::context will yield.
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///
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/// [SET] usually occur without yielding your context because the DB is oriented
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/// around write-log appends. It deals with the heavier tasks later in background.
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///
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/// NOTE that the column and cell structs are type-agnostic. The database is capable of
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/// storing binary data in the key or the value for a cell. The string_view will work
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/// with both a normal string and binary data, so this class is not a template and
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/// offers no conversions at this interface.
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///
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struct ircd::db::column
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{
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struct delta;
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struct const_iterator_base;
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struct const_iterator;
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struct const_reverse_iterator;
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using key_type = string_view;
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using mapped_type = string_view;
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using value_type = std::pair<key_type, mapped_type>;
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using pointer = value_type *;
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using reference = value_type &;
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using iterator = const_iterator;
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using reverse_iterator = const_reverse_iterator;
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using iterator_category = std::bidirectional_iterator_tag;
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using difference_type = size_t;
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protected:
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database::column *c {nullptr};
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public:
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explicit operator const database &() const;
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explicit operator const database::column &() const;
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explicit operator const descriptor &() const;
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explicit operator database &();
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explicit operator database::column &();
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explicit operator bool() const { return bool(c); }
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bool operator!() const { return !c; }
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// [GET] Iterations
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const_iterator begin(gopts = {});
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const_iterator end(gopts = {});
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const_reverse_iterator rbegin(gopts = {});
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const_reverse_iterator rend(gopts = {});
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const_iterator find(const string_view &key, gopts = {});
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const_iterator lower_bound(const string_view &key, gopts = {});
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const_iterator upper_bound(const string_view &key, gopts = {});
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// [GET] Get cell
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cell operator[](const string_view &key) const;
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// [GET] Perform a get into a closure. This offers a reference to the data with zero-copy.
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using view_closure = std::function<void (const string_view &)>;
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bool operator()(const string_view &key, std::nothrow_t, const view_closure &func, const gopts & = {});
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bool operator()(const string_view &key, std::nothrow_t, const gopts &, const view_closure &func);
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void operator()(const string_view &key, const view_closure &func, const gopts & = {});
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void operator()(const string_view &key, const gopts &, const view_closure &func);
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// [SET] Perform operations in a sequence as a single transaction. No template iterators
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// supported yet, just a ContiguousContainer iteration (and derived convenience overloads)
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void operator()(const delta *const &begin, const delta *const &end, const sopts & = {});
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void operator()(const std::initializer_list<delta> &, const sopts & = {});
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void operator()(const sopts &, const std::initializer_list<delta> &);
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void operator()(const delta &, const sopts & = {});
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column(database::column &c);
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column(database &, const string_view &column);
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column() = default;
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};
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/// Delta is an element of a transaction. Use column::delta's to atomically
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/// commit to multiple keys in the same column. Refer to delta.h for the `enum op`
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/// choices. Refer to cell::delta to transact with multiple cells across different
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/// columns. Refer to row::delta to transact with entire rows.
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///
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/// Note, for now, unlike cell::delta and row::delta, the column::delta has
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/// no reference to the column in its tuple. This is why these deltas are executed
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/// through the member column::operator() and not an overload of db::write().
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///
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/// It is unlikely you will need to work with column deltas directly because
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/// you may decohere one column from the others participating in a row.
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///
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struct ircd::db::column::delta
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:std::tuple<op, string_view, string_view>
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{
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enum
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{
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OP, KEY, VAL,
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};
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delta(const string_view &key, const string_view &val, const enum op &op = op::SET)
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:std::tuple<enum op, string_view, string_view>{op, key, val}
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{}
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delta(const enum op &op, const string_view &key, const string_view &val = {})
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:std::tuple<enum op, string_view, string_view>{op, key, val}
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{}
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};
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/// Iteration over all keys down a column. Default construction is an invalid
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/// iterator, which could be compared against in the style of STL algorithms.
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/// Otherwise, construct an iterator by having it returned from the appropriate
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/// function in column::.
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///
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struct ircd::db::column::const_iterator_base
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{
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using key_type = string_view;
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using mapped_type = string_view;
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using value_type = std::pair<key_type, mapped_type>;
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using pointer = value_type *;
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using reference = value_type &;
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using iterator_category = std::bidirectional_iterator_tag;
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using difference_type = size_t;
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protected:
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database::column *c;
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gopts opts;
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std::unique_ptr<rocksdb::Iterator> it;
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mutable value_type val;
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const_iterator_base(database::column *const &, std::unique_ptr<rocksdb::Iterator> &&, db::gopts = {});
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public:
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explicit operator const database::column &() const;
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explicit operator const database::snapshot &() const;
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explicit operator const gopts &() const;
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explicit operator database::column &();
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explicit operator database::snapshot &();
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explicit operator gopts &();
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operator bool() const;
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bool operator!() const;
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const value_type *operator->() const;
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const value_type &operator*() const;
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const_iterator_base();
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const_iterator_base(const_iterator_base &&) noexcept;
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const_iterator_base &operator=(const_iterator_base &&) noexcept;
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~const_iterator_base() noexcept;
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friend bool operator==(const const_iterator_base &, const const_iterator_base &);
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friend bool operator!=(const const_iterator_base &, const const_iterator_base &);
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friend bool operator<(const const_iterator_base &, const const_iterator_base &);
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friend bool operator>(const const_iterator_base &, const const_iterator_base &);
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template<class pos> friend bool seek(column::const_iterator_base &, const pos &);
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};
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struct ircd::db::column::const_iterator
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:const_iterator_base
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{
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friend class column;
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const_iterator &operator++();
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const_iterator &operator--();
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using const_iterator_base::const_iterator_base;
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};
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struct ircd::db::column::const_reverse_iterator
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:const_iterator_base
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{
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friend class column;
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const_reverse_iterator &operator++();
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const_reverse_iterator &operator--();
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using const_iterator_base::const_iterator_base;
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};
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inline ircd::db::column::const_iterator_base::operator
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gopts &()
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{
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return opts;
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}
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inline ircd::db::column::const_iterator_base::operator
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database::snapshot &()
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{
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return opts.snapshot;
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}
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inline ircd::db::column::const_iterator_base::operator
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database::column &()
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{
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return *c;
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}
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inline ircd::db::column::const_iterator_base::operator
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const gopts &()
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const
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{
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return opts;
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}
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inline ircd::db::column::const_iterator_base::operator
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const database::snapshot &()
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const
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{
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return opts.snapshot;
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}
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inline ircd::db::column::const_iterator_base::operator
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const database::column &()
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const
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{
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return *c;
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}
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inline ircd::db::column::operator
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database::column &()
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{
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return *c;
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}
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inline ircd::db::column::operator
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database &()
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{
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return database::get(*c);
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}
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inline ircd::db::column::operator
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const database::column &()
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const
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{
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return *c;
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}
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inline ircd::db::column::operator
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const database &()
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const
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{
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return database::get(*c);
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}
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