// Copyright (c) 2019 Alexander Medvednikov. All rights reserved. // Use of this source code is governed by an MIT license // that can be found in the LICENSE file. module builtin import strings struct map { element_size int root &mapnode pub: size int } struct mapnode { left &mapnode right &mapnode is_empty bool key string val voidptr } fn new_map(cap, elm_size int) map { res := map { element_size: elm_size root: 0 } return res } // `m := { 'one': 1, 'two': 2 }` fn new_map_init(cap, elm_size int, keys &string, vals voidptr) map { mut res := map { element_size: elm_size root: 0 } for i in 0 .. cap { res.set(keys[i], vals + i * elm_size) } return res } fn new_node(key string, val voidptr, element_size int) &mapnode { new_e := &mapnode { key: key val: malloc(element_size) left: 0 right: 0 } C.memcpy(new_e.val, val, element_size) return new_e } fn (m mut map) insert(n mut mapnode, key string, val voidptr) { if n.key == key { C.memcpy(n.val, val, m.element_size) return } if n.key > key { if n.left == 0 { n.left = new_node(key, val, m.element_size) m.size++ } else { m.insert(mut n.left, key, val) } return } if n.right == 0 { n.right = new_node(key, val, m.element_size) m.size++ } else { m.insert(mut n.right, key, val) } } fn (n & mapnode) find(key string, out voidptr, element_size int) bool{ if n.key == key { C.memcpy(out, n.val, element_size) return true } else if n.key > key { if n.left == 0 { return false } else { return n.left.find(key, out, element_size) } } else { if n.right == 0 { return false } else { return n.right.find(key, out, element_size) } } } // same as `find`, but doesn't return a value. Used by `exists` fn (n & mapnode) find2(key string, element_size int) bool{ if n.key == key { return true } else if n.key > key { if isnil(n.left) { return false } else { return n.left.find2(key, element_size) } } else { if isnil(n.right) { return false } else { return n.right.find2(key, element_size) } } } fn (m mut map) set(key string, val voidptr) { if isnil(m.root) { m.root = new_node(key, val, m.element_size) m.size++ return } m.insert(mut m.root, key, val) } /* fn (m map) bs(query string, start, end int, out voidptr) { // println('bs "$query" $start -> $end') mid := start + ((end - start) / 2) if end - start == 0 { last := m.entries[end] C.memcpy(out, last.val, m.element_size) return } if end - start == 1 { first := m.entries[start] C.memcpy(out, first.val, m.element_size) return } if mid >= m.entries.len { return } mid_msg := m.entries[mid] // println('mid.key=$mid_msg.key') if query < mid_msg.key { m.bs(query, start, mid, out) return } m.bs(query, mid, end, out) } */ fn preorder_keys(node &mapnode, keys mut []string, key_i int) int { mut i := key_i if !node.is_empty { keys[i] = node.key i++ } if !isnil(node.left) { i = preorder_keys(node.left, mut keys, i) } if !isnil(node.right) { i = preorder_keys(node.right, mut keys, i) } return i } pub fn (m &map) keys() []string { mut keys := [''].repeat(m.size) if isnil(m.root) { return keys } preorder_keys(m.root, mut keys, 0) return keys } fn (m map) get(key string, out voidptr) bool { println('g') if m.root == 0 { return false } return m.root.find(key, out, m.element_size) } pub fn (n mut mapnode) delete(key string, element_size int) { if n.key == key { C.memset(n.val, 0, element_size) n.is_empty = true return } else if n.key > key { if isnil(n.left) { return } else { n.left.delete(key, element_size) } } else { if isnil(n.right) { return } else { n.right.delete(key, element_size) } } } pub fn (m mut map) delete(key string) { m.root.delete(key, m.element_size) m.size-- } fn (m map) exists(key string) bool { return !isnil(m.root) && m.root.find2(key, m.element_size) } pub fn (m map) print() { println('<<<<<<<<') //for i := 0; i < m.entries.len; i++ { // entry := m.entries[i] // println('$entry.key => $entry.val') //} /* for i := 0; i < m.cap * m.element_size; i++ { b := m.table[i] print('$i: ') C.printf('%02x', b) println('') } */ println('>>>>>>>>>>') } fn (n mut mapnode) free() { if n.val != 0 { free(n.val) } if n.left != 0 { n.left.free() } if n.right != 0 { n.right.free() } free(n) } pub fn (m mut map) free() { if m.root == 0 { return } m.root.free() // C.free(m.table) // C.free(m.keys_table) } pub fn (m map_string) str() string { if m.size == 0 { return '{}' } mut sb := strings.new_builder(50) sb.writeln('{') for key, val in m { sb.writeln(' "$key" => "$val"') } sb.writeln('}') return sb.str() }