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masstree_insert.hh
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masstree_insert.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_INSERT_HH
#define MASSTREE_INSERT_HH
#include "masstree_get.hh"
#include "masstree_split.hh"
namespace Masstree {
template <typename P>
bool tcursor<P>::find_insert(threadinfo& ti)
{
find_locked(ti);
original_n_ = n_;
original_v_ = n_->full_unlocked_version_value();
// maybe we found it
if (state_)
return true;
// otherwise mark as inserted but not present
state_ = 2;
// maybe we need a new layer
if (kx_.p >= 0)
return make_new_layer(ti);
// mark insertion if we are changing modification state
if (unlikely(n_->modstate_ != leaf<P>::modstate_insert)) {
masstree_invariant(n_->modstate_ == leaf<P>::modstate_remove);
n_->mark_insert();
n_->modstate_ = leaf<P>::modstate_insert;
}
// try inserting into this node
if (n_->size() < n_->width) {
kx_.p = permuter_type(n_->permutation_).back();
// don't inappropriately reuse position 0, which holds the ikey_bound
if (likely(kx_.p != 0) || !n_->prev_ || n_->ikey_bound() == ka_.ikey()) {
n_->assign(kx_.p, ka_, ti);
return false;
}
}
// otherwise must split
return make_split(ti);
}
template <typename P>
bool tcursor<P>::make_new_layer(threadinfo& ti) {
key_type oka(n_->ksuf(kx_.p));
ka_.shift();
int kcmp = oka.compare(ka_);
// Create a twig of nodes until the suffixes diverge
leaf_type* twig_head = n_;
leaf_type* twig_tail = n_;
while (kcmp == 0) {
leaf_type* nl = leaf_type::make_root(0, twig_tail, ti);
nl->assign_initialize_for_layer(0, oka);
if (twig_head != n_)
twig_tail->lv_[0] = nl;
else
twig_head = nl;
nl->permutation_ = permuter_type::make_sorted(1);
twig_tail = nl;
new_nodes_.emplace_back(nl, nl->full_unlocked_version_value());
oka.shift();
ka_.shift();
kcmp = oka.compare(ka_);
}
// Estimate how much space will be required for keysuffixes
size_t ksufsize;
if (ka_.has_suffix() || oka.has_suffix())
ksufsize = (std::max(0, ka_.suffix_length())
+ std::max(0, oka.suffix_length())) * (n_->width / 2)
+ n_->iksuf_[0].overhead(n_->width);
else
ksufsize = 0;
leaf_type *nl = leaf_type::make_root(ksufsize, twig_tail, ti);
nl->assign_initialize(0, kcmp < 0 ? oka : ka_, ti);
nl->assign_initialize(1, kcmp < 0 ? ka_ : oka, ti);
nl->lv_[kcmp > 0] = n_->lv_[kx_.p];
nl->lock(*nl, ti.lock_fence(tc_leaf_lock));
if (kcmp < 0)
nl->permutation_ = permuter_type::make_sorted(1);
else {
permuter_type permnl = permuter_type::make_sorted(2);
permnl.remove_to_back(0);
nl->permutation_ = permnl.value();
}
// In a prior version, recursive tree levels and true values were
// differentiated by a bit in the leafvalue. But this constrains the
// values users could assign for true values. So now we use bits in
// the key length, and changing a leafvalue from true value to
// recursive tree requires two writes. How to make this work in the
// face of concurrent lockless readers? Mark insertion so they
// retry.
n_->mark_insert();
fence();
if (twig_tail != n_)
twig_tail->lv_[0] = nl;
if (twig_head != n_)
n_->lv_[kx_.p] = twig_head;
else
n_->lv_[kx_.p] = nl;
n_->keylenx_[kx_.p] = n_->layer_keylenx;
updated_v_ = n_->full_unlocked_version_value();
n_->unlock();
n_ = nl;
kx_.i = kx_.p = kcmp < 0;
return false;
}
template <typename P>
void tcursor<P>::finish_insert()
{
permuter_type perm(n_->permutation_);
masstree_invariant(perm.back() == kx_.p);
perm.insert_from_back(kx_.i);
fence();
n_->permutation_ = perm.value();
}
template <typename P>
inline void tcursor<P>::finish(int state, threadinfo& ti)
{
if (state < 0 && state_ == 1) {
if (finish_remove(ti))
return;
} else if (state > 0 && state_ == 2)
finish_insert();
// we finally know this!
if (n_ == original_n_)
updated_v_ = n_->full_unlocked_version_value();
else
new_nodes_.emplace_back(n_, n_->full_unlocked_version_value());
n_->unlock();
}
} // namespace Masstree
#endif