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masstree_key.hh
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masstree_key.hh
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/* Masstree
* Eddie Kohler, Yandong Mao, Robert Morris
* Copyright (c) 2012-2014 President and Fellows of Harvard College
* Copyright (c) 2012-2014 Massachusetts Institute of Technology
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, subject to the conditions
* listed in the Masstree LICENSE file. These conditions include: you must
* preserve this copyright notice, and you cannot mention the copyright
* holders in advertising related to the Software without their permission.
* The Software is provided WITHOUT ANY WARRANTY, EXPRESS OR IMPLIED. This
* notice is a summary of the Masstree LICENSE file; the license in that file
* is legally binding.
*/
#ifndef MASSTREE_KEY_HH
#define MASSTREE_KEY_HH
#include "masstree.hh"
#include "string_slice.hh"
namespace Masstree {
/** @brief Strings used as Masstree keys.
Masstree key strings are divided into parts: an initial slice, called
the <em>ikey</em>, and a suffix. The ikey is stored as a byte-swapped
integer, which is faster to compare than a string.
Keys can be <em>shifted</em> by the shift() method. <code>k.shift()</code>
is like <code>k = key(k.suffix())</code>: the key is reconstructed from
the original key's suffix. This corresponds to descending a layer in
Masstree. However, <code>k.shift()</code> is faster than the assignment,
and its effects can be undone by the <code>k.unshift_all()</code>
method. */
template <typename I>
class key {
public:
static constexpr int nikey = 1;
/** @brief Type of ikeys. */
typedef I ikey_type;
/** @brief Size of ikeys in bytes. */
static constexpr int ikey_size = sizeof(ikey_type);
/** @brief Construct an uninitialized key. */
key() {
}
/** @brief Construct a key for string @a s. */
key(Str s)
: ikey0_(string_slice<ikey_type>::make_comparable(s.s, s.len)),
len_(s.len), s_(s.s), first_(s.s) {
}
/** @brief Construct a key for string @a s with length @a len.
@pre @a len >= 0 */
key(const char* s, int len)
: ikey0_(string_slice<ikey_type>::make_comparable(s, len)),
len_(len), s_(s), first_(s) {
}
/** @brief Construct a key for ikey @a ikey.
Any trailing zero bytes in @a ikey are not counted towards the key's
length. */
explicit key(ikey_type ikey)
: ikey0_(ikey),
len_(ikey ? ikey_size - ctz(ikey) / 8 : 0), s_(0), first_(0) {
}
/** @brief Construct a key for ikey @a ikey with length @a len.
@pre @a len >= 0
@post length() >= 0 && length() <= ikey_size */
key(ikey_type ikey, int len)
: ikey0_(ikey),
len_(std::min(len, ikey_size)), s_(0), first_(0) {
}
/** @brief Construct a key with ikey @a ikey and suffix @a suf. */
key(ikey_type ikey, Str suf)
: ikey0_(ikey),
len_(ikey_size + suf.len), s_(suf.s - ikey_size), first_(s_) {
}
/** @brief Test if this key is empty (holds the empty string). */
bool empty() const {
return ikey0_ == 0 && len_ == 0;
}
/** @brief Return the ikey. */
ikey_type ikey() const {
return ikey0_;
}
/** @brief Return the key's length. */
int length() const {
return len_;
}
/** @brief Test whether this key has a suffix (length() > ikey_size). */
bool has_suffix() const {
return len_ > ikey_size;
}
/** @brief Return this key's suffix.
@pre has_suffix() */
Str suffix() const {
return Str(s_ + ikey_size, len_ - ikey_size);
}
/** @brief Return the length of this key's suffix.
@pre has_suffix() */
int suffix_length() const {
return len_ - ikey_size;
}
/** @brief Shift this key forward to model the current key's suffix.
@pre has_suffix() */
void shift() {
s_ += ikey_size;
len_ -= ikey_size;
ikey0_ = string_slice<ikey_type>::make_comparable_sloppy(s_, len_);
}
/** @brief Shift this key forward to model the current key's suffix.
@pre has_suffix() */
void shift_by(int delta) {
s_ += delta;
len_ -= delta;
ikey0_ = string_slice<ikey_type>::make_comparable_sloppy(s_, len_);
}
/** @brief Test whether this key has been shifted by shift(). */
bool is_shifted() const {
return first_ != s_;
}
/** @brief Undo all previous shift() calls. */
void unshift_all() {
if (s_ != first_) {
len_ += s_ - first_;
s_ = first_;
ikey0_ = string_slice<ikey_type>::make_comparable(s_, len_);
}
}
int compare(ikey_type ikey, int keylenx) const {
int cmp = ::compare(this->ikey(), ikey);
if (cmp == 0) {
int al = this->length();
if (al > ikey_size)
cmp = keylenx <= ikey_size;
else
cmp = al - keylenx;
}
return cmp;
}
int compare(const key<I>& x) const {
return compare(x.ikey(), x.length());
}
int unparse(char* data, int datalen) const {
int cplen = std::min(len_, datalen);
string_slice<ikey_type>::unparse_comparable(data, cplen, ikey0_, ikey_size);
if (cplen > ikey_size)
memcpy(data + ikey_size, s_ + ikey_size, cplen - ikey_size);
return cplen;
}
String unparse() const {
String s = String::make_uninitialized(len_);
unparse(s.mutable_data(), s.length());
return s;
}
int unparse_printable(char* data, int datalen) const {
String s = unparse_printable();
int cplen = std::min(s.length(), datalen);
memcpy(data, s.data(), cplen);
return cplen;
}
String unparse_printable() const {
return unparse().printable();
}
static String unparse_ikey(ikey_type ikey) {
key<ikey_type> k(ikey);
return k.unparse();
}
static String unparse_printable_ikey(ikey_type ikey) {
key<ikey_type> k(ikey);
return k.unparse_printable();
}
// used during scan
Str prefix_string() const {
return Str(first_, s_);
}
int prefix_length() const {
return s_ - first_;
}
Str full_string() const {
return Str(first_, s_ + len_);
}
operator Str() const {
return full_string();
}
bool increment() {
// Return true iff wrapped.
if (has_suffix()) {
++ikey0_;
len_ = 1;
return unlikely(!ikey0_);
} else {
++len_;
return false;
}
}
void assign_store_ikey(ikey_type ikey) {
ikey0_ = ikey;
*reinterpret_cast<ikey_type*>(const_cast<char*>(s_)) = host_to_net_order(ikey);
}
int assign_store_suffix(Str s) {
memcpy(const_cast<char*>(s_ + ikey_size), s.s, s.len);
return ikey_size + s.len;
}
void assign_store_length(int len) {
len_ = len;
}
void unshift() {
masstree_precondition(is_shifted());
s_ -= ikey_size;
ikey0_ = string_slice<ikey_type>::make_comparable_sloppy(s_, ikey_size);
len_ = ikey_size + 1;
}
void shift_clear() {
ikey0_ = 0;
len_ = 0;
s_ += ikey_size;
}
void shift_clear_reverse() {
ikey0_ = ~ikey_type(0);
len_ = ikey_size + 1;
s_ += ikey_size;
}
private:
ikey_type ikey0_;
int len_;
const char* s_;
const char* first_;
};
template <typename I> constexpr int key<I>::ikey_size;
} // namespace Masstree
template <typename I>
inline std::ostream& operator<<(std::ostream& stream,
const Masstree::key<I>& x) {
return stream << x.unparse();
}
#endif