All in one solution for tree structure in component developing.
It helps you manipulate tree data structure for user interface. (Can be used in Tree, Select, Dropdown, Table, Menu components and ...)
- check & uncheck nodes in the tree
- expand & collapse nodes in the tree
- move along tree nodes
- get flattened nodes
- query nodes
- support group node (group a set of nodes in the same tree level)
- support ignored node (ignored by move)
- meta info of nodes
- get the original node data ref
- async check
- ...
npm i -D treemate
Before you started, I strongly recommend you to read the section to get the basic concepts of treemate.
In treemate, a tree is composed of node (optional group node and optional ignored).
A node contains a key, and maybe a children prop which includes its child node.
Node {
key,
children?
}
If you don't need group node, you can pass the section.
A group node contains a key, a type prop with value group
and a children of its child node (can be a group node any more).
GroupNode {
key,
type: 'group',
children
}
The group node itself will be ignored when moving along the nodes, and the children of the group node is view as the same level of the group node.
For example, in the following tree, the group child 1 will be viewed as node 1's next node. node 2 will be viewed as group child 2's next node.
- node 1
- group node 1
- group child 1
- group child 2
- node 2
Some time's you may want to put some render only nodes in the tree. For example:
- node 1
- divider (render only)
- node 2
In data aspect, the divider node is meaning less. You can make it a ignored node. The ignored node will be ignored when moving along the nodes. (node 2 will be view the next node as node 1.) Also, getNode
method won't return the ignored node.
An ignored node should also contains a key (for modern frontend framework to do efficient diff)
IgnoredNode {
key,
type: 'ignored'
}
createTreeMate
method accepts a array of node as data. It returns a treemate instance.
In javascript:
import { createTreeMate } from 'treemate'
const data = [
// non-leaf node
{
key: 1,
children: [
{
key: 2
}
]
},
// leaf node
{
key: 3
},
// ignored node
{
key: 4,
type: 'ignored'
},
// group node
{
key: 5,
type: 'group',
children: [
{
key: 6
}
]
}
]
const treeMate = createTreeMate(data)
In typescript, the data looks almost same. However createTreeMate
accepts 3 optional generic parameter to specify the types of node, group node and ignored node.
interface BaseNode {
key: string | number
children?: Array<BaseNode | GroupNode | IgnoredNode>
}
interface GroupNode {
key: string | number
type: 'group'
children: Array<BaseNode | IgnoredNode>
}
interface IgnoredNode {
key: string | number
type: 'ignored'
}
// 1. specify all node types
const treeMate = createTreeMate<BaseNode, GroupNode, IgnoredNode>(data)
// 2. equals to createTreeMate<BaseNode, GroupNode, BaseNode>()
// which mean no ignored node is in the data.
const treeMate = createTreeMate<BaseNode, GroupNode>(data)
// 3. equals to createTreeMate<BaseNode, BaseNode, BaseNode>()
// which mean no ignored node and group node is in the data.
const treeMate = createTreeMate<BaseNode>(data)
// 4. without generic parameter
// it will use a builtin node type as basic node type.
// RawNode {
// key: string | number
// children?: RawNode[]
// disabled?: boolean
// isLeaf? boolean
// }
// ignored node and group node should be in the data.
const treeMate = createTreeMate(data)
If you want another way to determine a way to specify if a node's key or its disabled, group, ignored status. You can pass an option when create treemate.
const treeMate = createTreeMate(data, {
getKey: (node) => Key,
getDisabled: (node) => boolean,
getIsGroup: (node) => boolean,
getIgnored: (node) => boolean
})
Now suppose we have a treemate instance.
const tmNode = treeMate.getNode(key) // if not exist return null
// Caveat: getNode won't return group node & ignored node!
// If you do need to get them, you can use the treeNodeMap, eg:
treeMate.treeNodeMap.get(key)
TreeNode {
key,
rawNode, // hold the ref to the original data node, can be very useful
level, // from 0
index, // its index in its parent node (or root array)
siblings,
isFirstChild,
isLastChild,
parent, // its parent TreeNode (not data node)
isShallowLoaded, // use when on partial data is loaded
isLeaf,
isGroup,
ignored, // boolean
disabled, // disabled
children?, // its child TreeNodes (not data node)
getPrev, // method
getNext, // method
getParent, // method
getChild // method
}
Get checked status of the tree.
Node has disabled = true
will be block cascade check's propagation.
Param checkedKeys
has two forms:
Key[] // 1. currently checked keys
// 2. merged checked status
interface InputMergedKeys {
checkedKeys?: Key[] | null
indeterminateKeys?: Key[] | null // half checked
}
// it can also be
null | undefined
// viewed as an empty array
Param options
looks like
interface CheckOptions {
cascade?: boolean // cascade check status, default is true
leafOnly?: boolean // whether only allow leaf node being checked, default is false
checkStrategy?: string // set show strategy when checked 'all' | 'parent' | 'child'
}
Return value looks like
interface MergedKeys {
checkedKeys: Key[]
indeterminateKeys: Key[] // half checked
}
const { checkedKeys, indeterminateKeys } = treeMate.getCheckedKeys([1])
const { checkedKeys, indeterminateKeys } = treeMate.getCheckedKeys([1], {
cascade: false
})
const { checkedKeys, indeterminateKeys } = treeMate.getCheckedKeys({
checkedKeys: [1],
indeterminateKeys: [2]
})
// ...
Get checked status of the tree after some nodes are checked.
keysToCheck
could be Key | Key[] | null | undefined
.
For checkedKeys
, options
and return value, see getCheckedKeys(checkedKeys, options?)
.
Get checked status of the tree after some nodes are unchecked.
keysToCheck
could be Key | Key[] | null | undefined
.
For checkedKeys
, options
and return value, see getCheckedKeys(checkedKeys, options?)
.
Get the first previous not disabled
sibling TreeMateNode
of the key
's corresponding node. In the traverse process, the group | ignored
node itself will be dismissed. If node doesn't exist, return null
.
options
look like { loop?: boolean }
. By default, loop
is false
, it won't loop when touches the last node.
Get the first next not disabled
sibling TreeMateNode
of the key
's corresponding node. In the traverse process, the group | ignored
node itself will be dismissed. If node doesn't exist, return null
.
options
look like { loop?: boolean }
. By default, loop
is false
, it won't loop when touches the last node.
Get the parent node of the key
's corresponding node. In the traverse process, the group
node itself will be dismissed. If node doesn't exist, return null
.
Get the first not disabled
child node of the key
's corresponding node. In the traverse process, the group | ignored
node itself will be dismissed. If node doesn't exist, return null
.
Get the first previous not disabled
sibling TreeMateNode
. In the traverse process, the group
node itself will be dismissed. If node doesn't exist, return null
.
options
look like { loop?: boolean }
. By default, loop
is false
, it won't loop when touches the last node.
Get the first next not disabled
sibling TreeMateNode
. In the traverse process, the group | ignored
node itself will be dismissed. If node doesn't exist, return null
.
options
look like { loop?: boolean }
. By default, loop
is false
, it won't loop when touches the last node.
Get the parent node of TreeMateNode
. In the traverse process, the group
node itself will be dismissed. If node doesn't exist, return null
.
Get the first not disabled
child TreeMateNode
. In the traverse process, the group | ignored
node itself will be dismissed. If node doesn't exist, return null
.
Expand status is will influence the flattened nodes of the tree. The flattened nodes is crucial for virtual list.
Returns the flattened tree nodes with corresponding expandedKeys
. If expandedKeys
is not provided, treemate will treat it as all expanded.
Create an index getter from the flattenedNodes
.
import { createIndexGetter } from 'treemate'
const getIndex = createIndexGetter(flattenedNodes)
getIndex(flattenedNodes[0].key) === 0
Get the path from root to the node corresponding to the key
. The return value looks like
interface MergedPath {
keyPath: Key[]
treeNodePath: TreeMateNode[]
treeNode: TreeMateNode | null
}
The keyPath
is the key
of the nodes in path. The treeNodePath
is the node path. treeNode
is the TreeMateNode
corresponding to the key
.
options
looks like { includeSelf?: boolean, includeGroup?: boolean }
, by default includeSelf
is true and includeGroup
is false.
Can be used to get the default pending status of a select menu.
Get the first not disabled
TreeMateNode
of the tree. In the traverse process, the group | ignored
node itself will be dismissed. If node doesn't exist, returns null
.
Corresponding TreeMateNode
Array of original data. The tree structure is identical to the original data.
A map of key
to tree node. Contains all nodes, including group | ignored
node.