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haketilo / common / patterns_query_tree.js @ 1f9ccef9

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/**
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 * This file is part of Haketilo.
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 *
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 * Function: Data structure to query items by URL patterns.
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 *
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 * Copyright (C) 2021, 2022 Wojtek Kosior <koszko@koszko.org>
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 *
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 * This program is free software: you can redistribute it and/or modify
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 * it under the terms of the GNU General Public License as published by
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 * the Free Software Foundation, either version 3 of the License, or
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 * (at your option) any later version.
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 *
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 * This program is distributed in the hope that it will be useful,
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 * but WITHOUT ANY WARRANTY; without even the implied warranty of
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 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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 * GNU General Public License for more details.
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 *
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 * As additional permission under GNU GPL version 3 section 7, you
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 * may distribute forms of that code without the copy of the GNU
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 * GPL normally required by section 4, provided you include this
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 * license notice and, in case of non-source distribution, a URL
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 * through which recipients can access the Corresponding Source.
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 * If you modify file(s) with this exception, you may extend this
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 * exception to your version of the file(s), but you are not
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 * obligated to do so. If you do not wish to do so, delete this
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 * exception statement from your version.
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 *
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 * As a special exception to the GPL, any HTML file which merely
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 * makes function calls to this code, and for that purpose
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 * includes it by reference shall be deemed a separate work for
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 * copyright law purposes. If you modify this code, you may extend
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 * this exception to your version of the code, but you are not
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 * obligated to do so. If you do not wish to do so, delete this
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 * exception statement from your version.
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 *
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 * You should have received a copy of the GNU General Public License
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 * along with this program.  If not, see <https://www.gnu.org/licenses/>.
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 *
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 * I, Wojtek Kosior, thereby promise not to sue for violation of this file's
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 * license. Although I request that you do not make use of this code in a
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 * proprietary program, I am not going to enforce this in court.
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 */
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#FROM common/patterns.js IMPORT deconstruct_url
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/* "Pattern Tree" is how we refer to the data structure used for querying
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 * Haketilo patterns. Those look like 'https://*.example.com/ab/***'. The goal
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 * is to make it possible for given URL to quickly retrieve all known patterns
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 * that match it.
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 */
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const pattern_tree_make = () => ({})
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#EXPORT  pattern_tree_make  AS make
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const empty_node = () => ({});
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function is_empty_node(tree_node) {
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    for (const key in tree_node)
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	return false;
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    return true;
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}
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const wildcard_matches = node => [node["*"], node["**"], node["***"]];
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const is_wildcard = segment => ["*", "**", "***"].lastIndexOf(segment) >= 0;
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/*
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 * Remove reference to given child fron node and leave the node in consistent
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 * state afterwards, i.e. remove the "c" property if no childs are left.
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 */
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function delete_child(node, child_name) {
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    if (node.c) {
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	delete node.c[child_name];
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	for (const key in node.c)
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	    return;
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	delete node.c;
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    }
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}
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/*
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 * Yields all matches of this segments sequence against the tree that starts at
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 * this node. Results are produces in order from greatest to lowest pattern
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 * specificity.
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 */
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function* search_sequence(tree_node, segments) {
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    const nodes = [tree_node];
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    for (const current_segment of segments) {
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	const children = nodes[nodes.length - 1].c || {};
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	if (!Object.hasOwnProperty.call(children, current_segment))
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	    break;
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	nodes.push(children[current_segment]);
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    }
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    const nsegments = segments.length;
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    const conds = [
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	/* literal pattern match */
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	() => nodes.length     == nsegments,
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	/* wildcard pattern matches */
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	() => nodes.length + 1 == nsegments && segments[nsegments - 1] != "*",
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	() => nodes.length + 1 <  nsegments,
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	() => nodes.length + 1 != nsegments || segments[nsegments - 1] != "***"
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    ];
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    while (nodes.length) {
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	const node = nodes.pop();
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	const literal_match = node.l;
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	const items = [literal_match, ...wildcard_matches(node)];
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	for (let i = 0; i < items.length; i++) {
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	    if (items[i] !== undefined && conds[i]())
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		yield items[i];
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	}
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    }
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}
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/*
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 * Make item queryable through (this branch of) the Pattern Tree or remove its
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 * path from there.
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 *
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 * item_modifier should be a function that accepts 1 argument, the item stored
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 * in the tree (or `null` if there wasn't any item there), and returns an item
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 * that should be used in place of the first one. It is also legal for it to
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 * return the same item modifying it first. If it returns `null`, it means the
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 * item should be deleted from the Tree.
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 *
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 * If there was not yet any item associated with the tree path designated by
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 * segments and value returned by item_modifier is not `null`, make the value
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 * queryable by this path.
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 */
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function modify_sequence(tree_node, segments, item_modifier) {
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    const nodes = [tree_node];
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    let removed = true;
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    for (var current_segment of segments) {
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	const children = tree_node.c || {};
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	tree_node.c = children;
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	const child = Object.hasOwnProperty.call(children, current_segment) ?
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	      children[current_segment] : empty_node();
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	children[current_segment] = child;
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	tree_node = child;
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	nodes.push(tree_node);
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    }
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    tree_node.l = item_modifier(tree_node.l || null);
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    if (tree_node.l === null)
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	delete tree_node.l;
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    else
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	removed = false;
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    let i = segments.length;
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    if (is_wildcard(current_segment)) {
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	nodes[i - 1][current_segment] =
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	    item_modifier(nodes[i - 1][current_segment] || null);
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	if (nodes[i - 1][current_segment] === null)
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	    delete nodes[i - 1][current_segment];
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	else
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	    removed = false;
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    }
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    if (!removed)
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	return;
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    while (i > 0) {
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	tree_node = nodes[i--];
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	if (is_empty_node(tree_node))
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	    delete_child(nodes[i], segments[i]);
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	else
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	    break;
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    }
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}
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/* Helper function for modify_tree(). */
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function modify_path(tree_node, deco, item_modifier) {
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    tree_node = tree_node || empty_node();
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    modify_sequence(tree_node, deco.path, item_modifier);
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    return is_empty_node(tree_node) ? null : tree_node;
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}
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/* Helper function for modify_tree(). */
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function modify_domain(tree_node, deco, item_modifier) {
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    const path_modifier = branch => modify_path(branch, deco, item_modifier);
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    tree_node = tree_node || empty_node();
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    /* We need an array of domain labels ordered most-significant-first. */
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    modify_sequence(tree_node, [...deco.domain].reverse(), path_modifier);
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    return is_empty_node(tree_node) ? null : tree_node;
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}
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/* Helper function for pattern_tree_register() and pattern_tree_deregister(). */
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function modify_tree(patterns_by_proto, pattern, item_modifier) {
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    /*
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     * We pass 'false' to disable length limits on URL parts. Length limits are
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     * mostly useful in case of iteration over all patterns matching given URL.
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     * Here we don't do that.
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     */
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    const deco = deconstruct_url(pattern, false);
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    let tree_for_proto = patterns_by_proto[deco.proto];
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    tree_for_proto = deco.domain === undefined ?
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	modify_path(tree_for_proto, deco, item_modifier) :
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	modify_domain(tree_for_proto, deco, item_modifier);
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    patterns_by_proto[deco.proto] = tree_for_proto;
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    if (tree_for_proto === null)
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	delete patterns_by_proto[deco.proto];
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}
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/*
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 * Make item queryable through the Pattern Tree that starts with the protocols
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 * dictionary object passed in the first argument.
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 */
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function pattern_tree_register(patterns_by_proto, pattern, item_name, item) {
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    const key_prefix = pattern[pattern.length - 1] === '/' ? '/' : '_';
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    item_name = key_prefix + item_name;
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    const add_item = obj => Object.assign(obj || {}, {[item_name]: item});
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    modify_tree(patterns_by_proto, pattern, add_item);
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}
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#EXPORT  pattern_tree_register  AS register
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/* Helper function for pattern_tree_deregister(). */
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function _remove_item(obj, item_name) {
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    obj = obj || {};
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    delete obj[item_name];
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    for (const key in obj)
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	return obj;
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    return null;
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}
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/*
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 * Remove registered item from the Pattern Tree that starts with the protocols
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 * dictionary object passed in the first argument. The remaining 2 arguments
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 * should be pattern and name that have been earlier passed to
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 * pattern_tree_register().
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 */
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function pattern_tree_deregister(patterns_by_proto, pattern, item_name) {
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    const key_prefix = pattern[pattern.length - 1] === '/' ? '/' : '_';
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    item_name = key_prefix + item_name;
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    const remove_item = obj => _remove_item(obj, item_name);
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    modify_tree(patterns_by_proto, pattern, remove_item);
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}
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#EXPORT  pattern_tree_deregister  AS deregister
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/*
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 * Yield registered items that match url. Each yielded value is an object with
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 * keys being matched item names and values being the items. One such object
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 * shall contain all items matched with given pattern specificity. Objects are
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 * yielded in order from greatest to lowest pattern specificity.
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 */
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function* pattern_tree_search(patterns_by_proto, url) {
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    const deco = deconstruct_url(url, false);
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    const tree_for_proto = patterns_by_proto[deco.proto] || empty_node();
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    let by_path = [tree_for_proto];
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    /* We need an array of domain labels ordered most-significant-first. */
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    if (deco.domain !== undefined)
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	by_path = search_sequence(tree_for_proto, [...deco.domain].reverse());
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    for (const path_tree of by_path) {
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	for (const match_obj of search_sequence(path_tree, deco.path)) {
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	    let result_obj_slash    = null;
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	    let result_obj_no_slash = null;
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	    for (const [key, item] of Object.entries(match_obj)) {
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		if (deco.trailing_slash && key[0] === '/') {
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		    result_obj_slash = result_obj_slash || {};
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		    result_obj_slash[key.substring(1)] = item;
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		} else if (key[0] !== '/') {
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		    result_obj_no_slash = result_obj_no_slash || {};
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		    result_obj_no_slash[key.substring(1)] = item;
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		}
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	    }
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	    if (deco.trailing_slash && result_obj_slash)
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		yield result_obj_slash;
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	    if (result_obj_no_slash)
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		yield result_obj_no_slash;
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	}
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    }
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}
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#EXPORT  pattern_tree_search  AS search
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