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scylladb/test/boost/btree_validation.hh
Avi Kivity f3eade2f62 treewide: relicense to ScyllaDB-Source-Available-1.0 
Drop the AGPL license in favor of a source-available license.
See the blog post [1] for details.

[1] https://www.scylladb.com/2024/12/18/why-were-moving-to-a-source-available-license/
2024-12-18 17:45:13 +02:00

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/*
* Copyright (C) 2021-present ScyllaDB
*/
/*
* SPDX-License-Identifier: LicenseRef-ScyllaDB-Source-Available-1.0
*/
#pragma once
#include <stddef.h>
#include "utils/intrusive_btree.hh"
namespace intrusive_b {
class member_hook;
template <typename Key, member_hook Key::* Hook, typename Compare, size_t NodeSize, size_t LinearThreshold>
class validator {
using key = Key;
using tree = class tree<Key, Hook, Compare, NodeSize, LinearThreshold, key_search::both, with_debug::yes>;
using node = class node<Key, Hook, Compare, NodeSize, LinearThreshold, key_search::both, with_debug::yes>;
bool validate(const tree& t, const node* n, unsigned long& prev_key) {
if (n->is_root() && n->_parent.t != &t) {
fmt::print("invalid root pointer @{}\n", n->id());
return false;
}
if (!n->is_leaf()) {
for (size_t i = 0; i <= n->_base.num_keys; i++) {
node* k = n->_kids[i];
if (k == nullptr) {
fmt::print("node {} kid {} is null\n", n->id(), i);
return false;
}
if (k->_parent.n != n) {
fmt::print("node {} parent != {}\n", k->id(), n->id());
return false;
}
if (!validate(t, k, prev_key)) {
return false;
}
if (i != n->_base.num_keys) {
member_hook* h = n->_base.keys[i];
if (h == nullptr) {
fmt::print("node {} key {} is null\n", n->id(), i);
return false;
}
if (h->_node != &n->_base) {
fmt::print("node {} key {} is misowned\n", n->id(), i);
return false;
}
Key& k = *h->to_key<Key, Hook>();
if ((unsigned long)k < prev_key) {
fmt::print("key misorder on node {}, idx {}\n", n->id(), i);
return false;
}
prev_key = (unsigned long)k;
}
}
} else {
if (n->is_leftmost()) {
if (t._corners.left != n) {
fmt::print("leftmost tree {}, expected {}\n", t._corners.left->id(), n->id());
return false;
}
if (!n->is_root() && n->_leaf_tree != &t) {
fmt::print("leftmost tree broken for {}\n", n->id());
return false;
}
}
if (n->is_rightmost()) {
if (t._corners.right != n) {
fmt::print("rightmost tree {}, expected {}\n", t._corners.right->id(), n->id());
return false;
}
if (!n->is_root() && n->_leaf_tree != &t) {
fmt::print("rightmost tree broken for {}\n", n->id());
return false;
}
}
for (size_t i = 0; i < n->_base.num_keys; i++) {
member_hook* h = n->_base.keys[i];
Key& k = *h->to_key<Key, Hook>();
if ((unsigned long)k < prev_key) {
fmt::print("key misorder on leaf {}\n", n->id());
return false;
}
prev_key = (unsigned long)k;
}
}
return true;
}
void print_node(const node& n, char pfx, int indent) {
if (n.is_leaf()) {
fmt::print("{:<{}} {} ({}/{} keys) (l{}{}{}):", pfx, indent, n.id(), n._base.num_keys, n._base.capacity,
n.is_root() ? "r" : "-", n.is_leftmost() ? "<" : "-", n.is_rightmost() ? ">" : "-");
int i;
for (i = 0; i < n._base.num_keys; i++) {
Key& k = *n._base.keys[i]->template to_key<Key, Hook>();
fmt::print(" {}", (unsigned long)k);
}
fmt::print("\n");
} else {
fmt::print("{:<{}} {} ({} keys) (i{})\n", pfx, indent, n.id(), n._base.num_keys,
n.is_root() ? "r" : "-");
int i;
for (i = 0; i < n._base.num_keys; i++) {
print_node(*n._kids[i], pfx, indent + 2);
Key& k = *n._base.keys[i]->template to_key<Key, Hook>();
fmt::print("{:<{}} - {} -\n", pfx, indent, (unsigned long)k);
}
print_node(*n._kids[i], pfx, indent + 2);
}
}
public:
bool validate(const tree& t) {
if (t._root == nullptr) {
return true;
}
unsigned long pk = 0;
return validate(t, t._root, pk);
}
void print_tree(const tree& t, char pfx) {
fmt::print("/--- TREE ---\n");
if (t._root != nullptr) {
fmt::print("{} <- {} -> {}\n", t._corners.left->id(), t._root->id(), t._corners.right->id());
print_node(*t._root, pfx, 0);
} else {
fmt::print("inline {} keys: ", t._inline.num_keys);
for (int i = 0; i < t._inline.num_keys; i++) {
const Key& k = *t._inline.keys[i]->template to_key<Key, Hook>();
fmt::print(" {}", (unsigned long)k);
}
fmt::print("\n");
}
fmt::print("\\------------\n");
}
};
template <typename Key, member_hook Key::* Hook, typename Compare, size_t NodeSize, size_t LinearThreshold>
class iterator_checker {
using tree = class tree<Key, Hook, Compare, NodeSize, LinearThreshold, key_search::both, with_debug::yes>;
using validator = class validator<Key, Hook, Compare, NodeSize, LinearThreshold>;
validator _tv;
tree& _tree;
typename tree::iterator _pos;
unsigned long _pk = 0;
bool step(tree& t, bool& valid) {
if (_pk == 0) {
return false;
}
if (_pos == t.end()) {
return false;
}
_pos++;
if (_pos == t.end()) {
return false;
}
unsigned long k = (unsigned long)(*_pos);
if (_pk >= k) {
fmt::print("iterator misorder {} -> {}\n", _pk, (unsigned long)k);
valid = false;
return true;
}
_pos++;
_pos--;
if (k != (unsigned long)(*_pos)) {
fmt::print("iterator backward miss {} <- {}\n", (unsigned long)k, (unsigned long)(*_pos));
valid = false;
return true;
}
_pk = (unsigned long)k;
valid = true;
return true;
}
public:
iterator_checker(validator& tv, tree& t) : _tv(tv), _tree(t) {}
bool step() {
bool valid;
if (step(_tree, valid)) {
return valid;
}
_pos = _tree.begin();
if (_pos == _tree.end()) {
return true;
}
_pk = (unsigned long)(*_pos);
return true;
}
bool here(const Key& k) {
return _pk != 0 && *_pos == k;
}
};
} // namespace
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