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v/vlib/builtin/map.v
2019-07-14 22:26:21 +02:00

212 lines
3.9 KiB
Go

// 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
struct map {
element_size int
root *Node
_keys []string // used by `keys()` TODO remove this from map struct,
key_i int // store in a separate var
pub:
size int
}
struct Node {
left *Node
right *Node
key string
val voidptr
}
fn new_map(cap, elm_size int) map {
res := map {
element_size: elm_size
root: 0
}
return res
}
fn new_node(key string, val voidptr, element_size int) *Node {
new_e := &Node {
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 Node, key string, val voidptr) {
if n.key == key {
C.memcpy(n.val, val, m.element_size)
return
}
if n.key > key {
if isnil(n.left) {
n.left = new_node(key, val, m.element_size)
m.size++
} else {
m.insert(mut n.left, key, val)
}
return
}
if isnil(n.right) {
n.right = new_node(key, val, m.element_size)
m.size++
} else {
m.insert(mut n.right, key, val)
}
}
fn (n & Node) 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 isnil(n.left) {
return false
} else {
return n.left.find(key, out, element_size)
}
}
else {
if isnil(n.right) {
return false
} else {
return n.right.find(key, out, element_size)
}
}
return false
}
// same as `find`, but doesn't return a value. Used by `exists`
fn (n & Node) 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)
}
}
return false
}
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 (m mut map) preorder_keys(node &Node) {
m._keys[m.key_i] = node.key
m.key_i++
if !isnil(node.left) {
m.preorder_keys(node.left)
}
if !isnil(node.right) {
m.preorder_keys(node.right)
}
}
pub fn (m mut map) keys() []string {
m._keys = [''; m.size]
m.key_i = 0
if isnil(m.root) {
return m._keys
}
m.preorder_keys(m.root)
return m._keys
}
fn (m map) get(key string, out voidptr) bool {
if isnil(m.root) {
return false
}
return m.root.find(key, out, m.element_size)
}
pub 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('>>>>>>>>>>')
}
pub fn (m map) free() {
// C.free(m.table)
// C.free(m.keys_table)
}
pub fn (m map_string) str() string {
// return 'not impl'
if m.size == 0 {
return '{}'
}
// TODO use bytes buffer
mut s := '{\n'
//for key, val in m {
//val := m[entry.key]
//s += ' "$entry.key" => "$val"\n'
//}
s += '}'
return s
}