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txn_btree.h
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txn_btree.h
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#ifndef _NDB_TXN_BTREE_H_
#define _NDB_TXN_BTREE_H_
#include "base_txn_btree.h"
// XXX: hacky
extern void txn_btree_test();
struct txn_btree_ {
class key_reader {
public:
inline ALWAYS_INLINE const std::string &
operator()(const std::string &s)
{
return s;
}
#if NDB_MASSTREE
inline ALWAYS_INLINE lcdf::Str operator()(lcdf::Str s) {
return s;
}
#endif
};
class key_writer {
public:
constexpr key_writer(const std::string *k)
: k(k) {}
template <typename StringAllocator>
inline const std::string *
fully_materialize(bool stable_input, StringAllocator &sa)
{
if (stable_input || !k)
return k;
std::string * const ret = sa();
ret->assign(k->data(), k->size());
return ret;
}
private:
const std::string *k;
};
// does not bother to interpret the bytes from a record
class single_value_reader {
public:
typedef std::string value_type;
constexpr single_value_reader(std::string *px, size_t max_bytes_read)
: px(px), max_bytes_read(max_bytes_read) {}
template <typename StringAllocator>
inline bool
operator()(const uint8_t *data, size_t sz, StringAllocator &sa)
{
const size_t readsz = std::min(sz, max_bytes_read);
px->assign((const char *) data, readsz);
return true;
}
inline std::string &
results()
{
return *px;
}
inline const std::string &
results() const
{
return *px;
}
template <typename StringAllocator>
inline void
dup(const std::string &vdup, StringAllocator &sa)
{
*px = vdup;
}
private:
std::string *px;
size_t max_bytes_read;
};
class value_reader {
public:
typedef std::string value_type;
constexpr value_reader(size_t max_bytes_read)
: px(nullptr), max_bytes_read(max_bytes_read) {}
template <typename StringAllocator>
inline bool
operator()(const uint8_t *data, size_t sz, StringAllocator &sa)
{
px = sa();
const size_t readsz = std::min(sz, max_bytes_read);
px->assign((const char *) data, readsz);
return true;
}
inline std::string &
results()
{
return *px;
}
inline const std::string &
results() const
{
return *px;
}
template <typename StringAllocator>
inline void
dup(const std::string &vdup, StringAllocator &sa)
{
px = sa();
*px = vdup;
}
private:
std::string *px;
size_t max_bytes_read;
};
class value_writer {
public:
constexpr value_writer(const std::string *v) : v(v) {}
inline size_t
compute_needed(const uint8_t *buf, size_t sz)
{
return v ? v->size() : 0;
}
template <typename StringAllocator>
inline const std::string *
fully_materialize(bool stable_input, StringAllocator &sa)
{
if (stable_input || !v)
return v;
std::string * const ret = sa();
ret->assign(v->data(), v->size());
return ret;
}
// input [buf, buf+sz) is old value
inline void
operator()(uint8_t *buf, size_t sz)
{
if (!v)
return;
NDB_MEMCPY(buf, v->data(), v->size());
}
private:
const std::string *v;
};
static size_t
tuple_writer(dbtuple::TupleWriterMode mode, const void *v, uint8_t *p, size_t sz)
{
const std::string * const vx = reinterpret_cast<const std::string *>(v);
switch (mode) {
case dbtuple::TUPLE_WRITER_NEEDS_OLD_VALUE:
return 0;
case dbtuple::TUPLE_WRITER_COMPUTE_NEEDED:
case dbtuple::TUPLE_WRITER_COMPUTE_DELTA_NEEDED:
return vx->size();
case dbtuple::TUPLE_WRITER_DO_WRITE:
case dbtuple::TUPLE_WRITER_DO_DELTA_WRITE:
NDB_MEMCPY(p, vx->data(), vx->size());
return 0;
}
ALWAYS_ASSERT(false);
return 0;
}
typedef std::string Key;
typedef key_reader KeyReader;
typedef key_writer KeyWriter;
typedef std::string Value;
typedef single_value_reader SingleValueReader;
typedef value_reader ValueReader;
typedef value_writer ValueWriter;
};
/**
* This class implements a serializable, multi-version b-tree
*
* It presents mostly same interface as the underlying concurrent b-tree,
* but the interface is serializable. The main interface differences are,
* insert() and put() do not return a boolean value to indicate whether or not
* they caused the tree to mutate
*
* A txn_btree does not allow keys to map to NULL records, even though the
* underlying concurrent btree does- this simplifies some of the book-keeping
* Additionally, keys cannot map to zero length records.
*
* Note that the txn_btree *manages* the memory of both keys and values internally.
* See the specific notes on search()/insert() about memory ownership
*/
template <template <typename> class Transaction>
class txn_btree : public base_txn_btree<Transaction, txn_btree_> {
typedef base_txn_btree<Transaction, txn_btree_> super_type;
public:
//template <typename Traits>
//struct transaction {
// typedef Transaction<txn_btree_, Traits> type;
//};
//template <typename Traits>
// using transaction = Transaction<txn_btree_, Traits>;
typedef typename super_type::string_type string_type;
typedef typename super_type::keystring_type keystring_type;
typedef typename super_type::size_type size_type;
typedef txn_btree_::Key key_type;
typedef txn_btree_::Value value_type;
typedef txn_btree_::KeyReader key_reader_type;
typedef txn_btree_::KeyWriter key_writer_type;
typedef txn_btree_::SingleValueReader single_value_reader_type;
typedef txn_btree_::ValueReader value_reader_type;
typedef txn_btree_::ValueWriter value_writer_type;
struct search_range_callback {
public:
virtual ~search_range_callback() {}
virtual bool invoke(const keystring_type &k, const string_type &v) = 0;
};
private:
template <typename T>
class type_callback_wrapper : public search_range_callback {
public:
constexpr type_callback_wrapper(T *callback)
: callback(callback) {}
virtual bool
invoke(const keystring_type &k, const string_type &v)
{
return callback->operator()(k, v);
}
private:
T *const callback;
};
static inline ALWAYS_INLINE string_type
to_string_type(const varkey &k)
{
return string_type((const char *) k.data(), k.size());
}
template <typename Traits>
static inline const std::string *
stablize(Transaction<Traits> &t, const std::string &s)
{
if (Traits::stable_input_memory)
return &s;
std::string * const px = t.string_allocator()();
*px = s;
return px;
}
template <typename Traits>
static inline const std::string *
stablize(Transaction<Traits> &t, const uint8_t *p, size_t sz)
{
if (!sz)
return nullptr;
std::string * const px = t.string_allocator()();
px->assign((const char *) p, sz);
return px;
}
template <typename Traits>
static inline const std::string *
stablize(Transaction<Traits> &t, const varkey &k)
{
return stablize(t, k.data(), k.size());
}
public:
txn_btree(size_type value_size_hint = 128,
bool mostly_append = false,
const std::string &name = "<unknown>")
: super_type(value_size_hint, mostly_append, name)
{}
template <typename Traits>
inline bool
search(Transaction<Traits> &t,
const varkey &k,
value_type &v,
size_t max_bytes_read = string_type::npos)
{
return search(t, to_string_type(k), v, max_bytes_read);
}
// either returns false or v is set to not-empty with value
// precondition: max_bytes_read > 0
template <typename Traits>
inline bool
search(Transaction<Traits> &t,
const key_type &k,
value_type &v,
size_type max_bytes_read = string_type::npos)
{
single_value_reader_type r(&v, max_bytes_read);
return this->do_search(t, k, r);
}
template <typename Traits>
inline void
search_range_call(Transaction<Traits> &t,
const key_type &lower,
const key_type *upper,
search_range_callback &callback,
size_type max_bytes_read = string_type::npos)
{
key_reader_type kr;
value_reader_type vr(max_bytes_read);
this->do_search_range_call(t, lower, upper, callback, kr, vr);
}
template <typename Traits>
inline void
rsearch_range_call(Transaction<Traits> &t,
const key_type &upper,
const key_type *lower,
search_range_callback &callback,
size_type max_bytes_read = string_type::npos)
{
key_reader_type kr;
value_reader_type vr(max_bytes_read);
this->do_rsearch_range_call(t, upper, lower, callback, kr, vr);
}
template <typename Traits>
inline void
search_range_call(Transaction<Traits> &t,
const varkey &lower,
const varkey *upper,
search_range_callback &callback,
size_type max_bytes_read = string_type::npos)
{
key_type u;
if (upper)
u = to_string_type(*upper);
search_range_call(t, to_string_type(lower),
upper ? &u : nullptr, callback, max_bytes_read);
}
template <typename Traits>
inline void
rsearch_range_call(Transaction<Traits> &t,
const varkey &upper,
const varkey *lower,
search_range_callback &callback,
size_type max_bytes_read = string_type::npos)
{
key_type l;
if (lower)
l = to_string_type(*lower);
rsearch_range_call(t, to_string_type(upper),
lower ? &l : nullptr, callback, max_bytes_read);
}
template <typename Traits, typename T>
inline void
search_range(Transaction<Traits> &t,
const key_type &lower,
const key_type *upper,
T &callback,
size_type max_bytes_read = string_type::npos)
{
type_callback_wrapper<T> w(&callback);
search_range_call(t, lower, upper, w, max_bytes_read);
}
template <typename Traits, typename T>
inline void
search_range(Transaction<Traits> &t,
const varkey &lower,
const varkey *upper,
T &callback,
size_type max_bytes_read = string_type::npos)
{
key_type u;
if (upper)
u = to_string_type(*upper);
search_range(t, to_string_type(lower),
upper ? &u : nullptr, callback, max_bytes_read);
}
template <typename Traits>
inline void
put(Transaction<Traits> &t, const key_type &k, const value_type &v)
{
INVARIANT(!v.empty());
this->do_tree_put(
t, stablize(t, k), stablize(t, v),
txn_btree_::tuple_writer, false);
}
template <typename Traits>
inline void
put(Transaction<Traits> &t, const varkey &k, const value_type &v)
{
INVARIANT(!v.empty());
this->do_tree_put(
t, stablize(t, k), stablize(t, v),
txn_btree_::tuple_writer, false);
}
template <typename Traits>
inline void
insert(Transaction<Traits> &t, const key_type &k, const value_type &v)
{
INVARIANT(!v.empty());
this->do_tree_put(
t, stablize(t, k), stablize(t, v),
txn_btree_::tuple_writer, true);
}
// insert() methods below are for legacy use
template <typename Traits>
inline void
insert(Transaction<Traits> &t, const key_type &k, const uint8_t *v, size_type sz)
{
INVARIANT(v);
INVARIANT(sz);
this->do_tree_put(
t, stablize(t, k), stablize(t, v, sz),
txn_btree_::tuple_writer, true);
}
template <typename Traits>
inline void
insert(Transaction<Traits> &t, const varkey &k, const uint8_t *v, size_type sz)
{
INVARIANT(v);
INVARIANT(sz);
this->do_tree_put(
t, stablize(t, k), stablize(t, v, sz),
txn_btree_::tuple_writer, true);
}
template <typename Traits, typename T>
inline void
insert_object(Transaction<Traits> &t, const varkey &k, const T &obj)
{
insert(t, k, (const uint8_t *) &obj, sizeof(obj));
}
template <typename Traits, typename T>
inline void
insert_object(Transaction<Traits> &t, const key_type &k, const T &obj)
{
insert(t, k, (const uint8_t *) &obj, sizeof(obj));
}
template <typename Traits>
inline void
remove(Transaction<Traits> &t, const key_type &k)
{
this->do_tree_put(t, stablize(t, k), nullptr, txn_btree_::tuple_writer, false);
}
template <typename Traits>
inline void
remove(Transaction<Traits> &t, const varkey &k)
{
this->do_tree_put(t, stablize(t, k), nullptr, txn_btree_::tuple_writer, false);
}
static void Test();
};
#endif /* _NDB_TXN_BTREE_H_ */