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Pepperminty-Wiki/experiments/bktree/bktreetest.php

198 lines
5.5 KiB
PHP

<?php
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at https://mozilla.org/MPL/2.0/. */
require("BkTree.php");
function time_callable($callable) {
$start_time = microtime(true);
return [
"value" => $callable(),
"time" => microtime(true) - $start_time
];
}
function tree_create() {
$tree = new BkTree("bktree.sqlite");
echo("Populating tree - ");
$time = microtime(true);
$handle = fopen("enable1.shuf.txt", "r"); $i = 0;
while(($line = fgets($handle)) !== false) {
// if($i > 10) exit();
$line = trim($line);
$tree->add($line);
$i++;
}
echo("done in ".round((microtime(true) - $time) * 1000, 2)."ms\n");
fclose($handle);
return $tree;
}
function tree_save(BkTree $tree) {
echo("Saving tree\n");
$tree->close();
}
function tree_load() {
return new BkTree("bktree.sqlite");
}
function test_search_linear() {
$start_time = microtime(true);
$handle = fopen("enable1.shuf.txt", "r");
while(($line = fgets($handle)) !== false) {
if(levenshtein("cakke", trim($line)) > 2) continue;
echo("linear match: ".trim($line)."\n");
}
echo("done in ".round((microtime(true) - $start_time) * 1000, 2)."ms\n");
exit();
}
function writegraph() {
global $tree;
echo("Writing graph to bktree.dot\n");
$handle = fopen("bktree.dot", "w");
fwrite($handle, "// Generated by bktreetest.php by Starbeamrainbowlabs\n");
fwrite($handle, "// Date: ".date("r")."\n");
fwrite($handle, "digraph BkTree {\n");
fwrite($handle, "\tgraph [bgcolor=\"transparent\", nodesep=\"5\", root=\"N0\"];\n");
fwrite($handle, "\tnode [shape=\"point\", color=\"#cb3d38\"];\n");
fwrite($handle, "\tedge [arrowhead=\"open\", gradientangle=\"90\", style=\"filled\", color=\"#fcba2280\"];\n"); // #8cc03280
foreach($tree->walk() as $next) {
if($next->id == 0) continue; // Skip the first node
fwrite($handle, "\tN$next->parent_id -> N$next->id;\n");
}
fwrite($handle, "}\n");
fclose($handle);
}
if(file_exists("bktree.sqlite"))
$tree = time_callable("tree_load");
else
$tree = time_callable("tree_create");
echo("Tree created in ".($tree["time"]*1000)."ms\n");
$tree = $tree["value"];
// writegraph(); exit();
function test_auto() {
global $tree;
for($i = 0; $i < 1; $i++) {
$start_time = microtime(true);
$results = $tree->lookup("cakke", 2);
echo("Lookup complete in ".round((microtime(true) - $start_time)*1000, 2)."ms (".count($results)." results found)\n");
}
exit();
}
// test_auto();
echo("BkTree Test CLI\n");
echo("Exit with .exit\n");
echo("This ensures the tree is saved to disk\n");
while(true) {
$line = readline("> "); // Newline is removed automatically
if(strlen($line) == 0) continue;
readline_add_history($line);
if($line[0] == ".") {
$parts = explode(" ", $line, 2);
switch ($parts[0]) {
case ".quit":
case ".exit":
$result = time_callable(function() use ($tree) {
tree_save($tree);
});
echo("Serialised tree in ".round($result["time"] * 1000, 2)."ms\n");
exit("exit\n");
break;
case ".help":
echo("dot commands:
.exit Exit, saving edits to the tree to disk
.writegraph Write a graphviz dot file to disk representing the tree in the current directory
.stats Compute statistics about the tree
.trace {{string}} Trace the path through the tree to {{string}}
.remove {{string}} Delete {{string}} from the tree
.add {{string}} Add {{string}} to the tree
");
break;
case ".writegraph":
writegraph();
break;
case ".remove":
$start_time = microtime(true);
$result = $tree->remove($parts[1]);
echo("{$parts[1]}".($result?"":" not")." successfully deleted from the tree in ".round((microtime(true) - $start_time)*1000)."ms\n");
break;
case ".add":
$start_time = microtime(true);
$depth = $tree->add($parts[1]);
echo("{$parts[1]} successfully added to the tree at depth $depth in ".round((microtime(true) - $start_time)*1000)."ms\n");
break;
case ".trace":
$trace = $tree->trace($parts[1]);
foreach($trace as $depth => $item) {
echo("$depth: {$item->node->value} (#$item->id)\n");
}
break;
case ".stats":
echo("Tree stats: ");
var_dump($tree->stats());
break;
default:
echo("Error: Unknown dot-command {$parts[0]} (try .help)\n");
break;
}
continue;
}
// var_dump($line);
$time = microtime(true);
$results = $tree->lookup($line, 2); $i = 0;
$time = round((microtime(true) - $time)*1000, 2);
$time_sort = microtime(true);
// Note that adding a cache here doesn't make a significant different to performance
// The overhead of calling a function far outweighs that of calling levenshtein(), apparently
usort($results, function($a, $b) use ($line, $tree) {
return $tree->edit_distance($a, $line) - $tree->edit_distance($b, $line);
});
$time_sort = round((microtime(true) - $time_sort)*1000, 2);
foreach($results as $result) {
echo(
str_pad($i, 5, " ", STR_PAD_LEFT).": ".
str_pad($result, 20).
" dist ".$tree->edit_distance($result, $line).
"\n"
);
$i++;
}
// $start_time_inc = microtime(true);
// $i = 0;
// foreach($tree->lookup($line, 2) as $result) {
// // var_dump($result);
// echo(
// str_pad(
// str_pad("$i: $result", 20)."dist ".levenshtein($result, $line),
// 40
// ).
// "+".round((microtime(true) - $start_time_inc)*1000, 2)."ms\n"
// );
// // readline("(press enter to continue)");
//
// $start_time_inc = microtime(true);
// $i++;
// }
echo("Found $i results in {$time}ms (+{$time_sort}ms sort)\n");
}