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masstree_stats.hh
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masstree_stats.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_STATS_HH
#define MASSTREE_STATS_HH
#include "masstree.hh"
#include "json.hh"
namespace Masstree {
template <typename P, typename TI>
void node_json_stats(node_base<P>* n, lcdf::Json& j, int layer, int depth,
TI& ti)
{
if (!n)
return;
else if (n->isleaf()) {
leaf<P>* lf = static_cast<leaf<P>*>(n);
// track number of leaves by depth and size
j[&"l1_node_by_depth"[!layer * 3]][depth] += 1;
j[&"l1_leaf_by_depth"[!layer * 3]][depth] += 1;
j[&"l1_leaf_by_size"[!layer * 3]][lf->size()] += 1;
// per-key information
typename leaf<P>::permuter_type perm(lf->permutation_);
int n = 0, nksuf = 0;
size_t active_ksuf_len = 0;
for (int i = 0; i < perm.size(); ++i)
if (lf->is_layer(perm[i])) {
lcdf::Json x = j["l1_size"];
j["l1_size"] = 0;
node_json_stats(lf->lv_[perm[i]].layer(), j, layer + 1, 0, ti);
j["l1_size_sum"] += j["l1_size"].to_i();
j["l1_size"] = x;
j["l1_count"] += 1;
} else {
++n;
int l = sizeof(typename P::ikey_type) * layer
+ lf->keylenx_[perm[i]];
if (lf->has_ksuf(perm[i])) {
size_t ksuf_len = lf->ksuf(perm[i]).len;
l += ksuf_len - 1;
active_ksuf_len += ksuf_len;
++nksuf;
}
j["key_by_length"][l] += 1;
}
j["size"] += n;
j["l1_size"] += n;
j["key_by_layer"][layer] += n;
// key suffix information
if (lf->allocated_size() != lf->min_allocated_size()
&& lf->ksuf_external()) {
j["overridden_ksuf"] += 1;
j["overridden_ksuf_capacity"] += lf->allocated_size() - lf->min_allocated_size();
}
if (lf->ksuf_capacity()) {
j["ksuf"] += 1;
j["ksuf_capacity"] += lf->ksuf_capacity();
j["ksuf_len"] += active_ksuf_len;
j["ksuf_by_layer"][layer] += 1;
if (!active_ksuf_len) {
j["unused_ksuf_capacity"] += lf->ksuf_capacity();
j["unused_ksuf_by_layer"][layer] += 1;
if (lf->ksuf_external())
j["unused_ksuf_external"] += 1;
} else
j["used_ksuf_by_layer"][layer] += 1;
}
} else {
internode<P> *in = static_cast<internode<P> *>(n);
for (int i = 0; i <= in->size(); ++i)
if (in->child_[i])
node_json_stats(in->child_[i], j, layer, depth + 1, ti);
j[&"l1_node_by_depth"[!layer * 3]][depth] += 1;
j[&"l1_internode_by_size"[!layer * 3]][in->size()] += 1;
}
}
template <typename P, typename TI>
void json_stats(lcdf::Json& j, basic_table<P>& table, TI& ti)
{
using lcdf::Json;
j["size"] = 0.0;
j["l1_count"] = 0;
j["l1_size"] = 0;
const char* const jarrays[] = {
"node_by_depth", "internode_by_size", "leaf_by_depth", "leaf_by_size",
"l1_node_by_depth", "l1_internode_by_size", "l1_leaf_by_depth", "l1_leaf_by_size",
"key_by_layer", "key_by_length",
"ksuf_by_layer", "unused_ksuf_by_layer", "used_ksuf_by_layer"
};
for (const char* const* x = jarrays; x != jarrays + sizeof(jarrays) / sizeof(*jarrays); ++x)
j[*x] = Json::make_array();
node_json_stats(table.root(), j, 0, 0, ti);
j.unset("l1_size");
for (const char* const* x = jarrays; x != jarrays + sizeof(jarrays) / sizeof(*jarrays); ++x) {
Json& a = j[*x];
for (Json* it = a.array_data(); it != a.end_array_data(); ++it)
if (!*it)
*it = Json((size_t) 0);
if (a.empty())
j.unset(*x);
}
}
template <typename P, typename TI>
lcdf::Json json_stats(basic_table<P>& table, TI& ti) {
lcdf::Json j;
json_stats(j, table, ti);
return j;
}
}
#endif