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/* 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 http://mozilla.org/MPL/2.0/. */
use dom::bindings::callback::RethrowExceptions;
use dom::bindings::codegen::Bindings::TreeWalkerBinding;
use dom::bindings::codegen::Bindings::TreeWalkerBinding::TreeWalkerMethods;
use dom::bindings::codegen::Bindings::NodeBinding::NodeMethods;
use dom::bindings::codegen::Bindings::NodeFilterBinding::NodeFilter;
// FIXME: Uncomment when codegen fix allows NodeFilterConstants
// to move to the NodeFilter binding file (#3149).
// For now, it is defined in this file.
// use dom::bindings::codegen::Bindings::NodeFilterBinding::NodeFilterConstants;
use dom::bindings::error::{ErrorResult, Fallible};
use dom::bindings::global::Window;
use dom::bindings::js::{JS, JSRef, OptionalRootable, Temporary};
use dom::bindings::utils::{Reflectable, Reflector, reflect_dom_object};
use dom::document::Document;
use dom::node::{Node, NodeHelpers};
use std::cell::Cell;
// http://dom.spec.whatwg.org/#interface-treewalker
#[dom_struct]
pub struct TreeWalker {
reflector_: Reflector,
root_node: JS<Node>,
current_node: Cell<JS<Node>>,
what_to_show: u32,
filter: Filter
}
impl TreeWalker {
fn new_inherited(root_node: JSRef<Node>,
what_to_show: u32,
filter: Filter) -> TreeWalker {
TreeWalker {
reflector_: Reflector::new(),
root_node: JS::from_rooted(root_node),
current_node: Cell::new(JS::from_rooted(root_node)),
what_to_show: what_to_show,
filter: filter
}
}
pub fn new_with_filter(document: JSRef<Document>,
root_node: JSRef<Node>,
what_to_show: u32,
filter: Filter) -> Temporary<TreeWalker> {
let window = document.window().root();
reflect_dom_object(box TreeWalker::new_inherited(root_node, what_to_show, filter),
&Window(*window),
TreeWalkerBinding::Wrap)
}
pub fn new(document: JSRef<Document>,
root_node: JSRef<Node>,
what_to_show: u32,
node_filter: Option<NodeFilter>) -> Temporary<TreeWalker> {
let filter = match node_filter {
None => FilterNone,
Some(jsfilter) => FilterJS(jsfilter)
};
TreeWalker::new_with_filter(document, root_node, what_to_show, filter)
}
}
impl<'a> TreeWalkerMethods for JSRef<'a, TreeWalker> {
fn Root(self) -> Temporary<Node> {
Temporary::new(self.root_node)
}
fn WhatToShow(self) -> u32 {
self.what_to_show
}
fn GetFilter(self) -> Option<NodeFilter> {
match self.filter {
FilterNone => None,
FilterJS(nf) => Some(nf),
FilterNative(_) => fail!("Cannot convert native node filter to DOM NodeFilter")
}
}
fn CurrentNode(self) -> Temporary<Node> {
Temporary::new(self.current_node.get())
}
fn SetCurrentNode(self, node: JSRef<Node>) -> ErrorResult {
// XXX Future: check_same_origin(root_node, node) (throws)
self.current_node.set(JS::from_rooted(node));
Ok(())
}
fn ParentNode(self) -> Fallible<Option<Temporary<Node>>> {
self.parent_node()
}
fn FirstChild(self) -> Fallible<Option<Temporary<Node>>> {
self.first_child()
}
fn LastChild(self) -> Fallible<Option<Temporary<Node>>> {
self.last_child()
}
fn PreviousSibling(self) -> Fallible<Option<Temporary<Node>>> {
self.prev_sibling()
}
fn NextSibling(self) -> Fallible<Option<Temporary<Node>>> {
self.next_sibling()
}
fn PreviousNode(self) -> Fallible<Option<Temporary<Node>>> {
self.prev_node()
}
fn NextNode(self) -> Fallible<Option<Temporary<Node>>> {
self.next_node()
}
}
impl Reflectable for TreeWalker {
fn reflector<'a>(&'a self) -> &'a Reflector {
&self.reflector_
}
}
type NodeAdvancer<'a> = |node: JSRef<'a, Node>|: 'a -> Option<Temporary<Node>>;
trait PrivateTreeWalkerHelpers<'a> {
fn traverse_children(self,
next_child: NodeAdvancer<'a>,
next_sibling: NodeAdvancer<'a>)
-> Fallible<Option<Temporary<Node>>>;
fn traverse_siblings(self,
next_child: NodeAdvancer<'a>,
next_sibling: NodeAdvancer<'a>)
-> Fallible<Option<Temporary<Node>>>;
fn is_root_node(self, node: JSRef<'a, Node>) -> bool;
fn is_current_node(self, node: JSRef<'a, Node>) -> bool;
fn first_following_node_not_following_root(self, node: JSRef<'a, Node>)
-> Option<Temporary<Node>>;
fn accept_node(self, node: JSRef<'a, Node>) -> Fallible<u16>;
}
impl<'a> PrivateTreeWalkerHelpers<'a> for JSRef<'a, TreeWalker> {
// http://dom.spec.whatwg.org/#concept-traverse-children
fn traverse_children(self,
next_child: NodeAdvancer<'a>,
next_sibling: NodeAdvancer<'a>)
-> Fallible<Option<Temporary<Node>>> {
// "To **traverse children** of type *type*, run these steps:"
// "1. Let node be the value of the currentNode attribute."
// "2. Set node to node's first child if type is first, and node's last child if type is last."
let cur = self.current_node.get().root();
let mut node_op: Option<JSRef<Node>> = next_child(*cur).map(|node| node.root().clone());
// 3. Main: While node is not null, run these substeps:
'main: loop {
match node_op {
None => break,
Some(node) => {
// "1. Filter node and let result be the return value."
match self.accept_node(node) {
Err(e) => return Err(e),
// "2. If result is FILTER_ACCEPT, then set the currentNode
// attribute to node and return node."
Ok(NodeFilterConstants::FILTER_ACCEPT) => {
self.current_node.set(JS::from_rooted(node));
return Ok(Some(Temporary::from_rooted(node)))
},
// "3. If result is FILTER_SKIP, run these subsubsteps:"
Ok(NodeFilterConstants::FILTER_SKIP) => {
// "1. Let child be node's first child if type is first,
// and node's last child if type is last."
match next_child(node) {
// "2. If child is not null, set node to child and goto Main."
Some(child) => {
node_op = Some(child.root().clone());
continue 'main
},
None => {}
}
},
_ => {}
}
// "4. While node is not null, run these substeps:"
loop {
match node_op {
None => break,
Some(node) => {
// "1. Let sibling be node's next sibling if type is next,
// and node's previous sibling if type is previous."
match next_sibling(node) {
// "2. If sibling is not null,
// set node to sibling and goto Main."
Some(sibling) => {
node_op = Some(sibling.root().clone());
continue 'main
},
None => {
// "3. Let parent be node's parent."
match node.parent_node().map(|p| p.root().clone()) {
// "4. If parent is null, parent is root,
// or parent is currentNode attribute's value,
// return null."
None => return Ok(None),
Some(parent) if self.is_root_node(parent)
|| self.is_current_node(parent) =>
return Ok(None),
// "5. Otherwise, set node to parent."
Some(parent) => node_op = Some(parent)
}
}
}
}
}
}
}
}
}
// "4. Return null."
Ok(None)
}
// http://dom.spec.whatwg.org/#concept-traverse-siblings
fn traverse_siblings(self,
next_child: NodeAdvancer<'a>,
next_sibling: NodeAdvancer<'a>)
-> Fallible<Option<Temporary<Node>>> {
// "To **traverse siblings** of type *type* run these steps:"
// "1. Let node be the value of the currentNode attribute."
let mut node = self.current_node.get().root().clone();
// "2. If node is root, return null."
if self.is_root_node(node) {
return Ok(None)
}
// "3. Run these substeps:"
loop {
// "1. Let sibling be node's next sibling if type is next,
// and node's previous sibling if type is previous."
let mut sibling_op = next_sibling(node);
// "2. While sibling is not null, run these subsubsteps:"
while sibling_op.is_some() {
// "1. Set node to sibling."
node = sibling_op.unwrap().root().clone();
// "2. Filter node and let result be the return value."
let result = self.accept_node(node);
// "3. If result is FILTER_ACCEPT, then set the currentNode
// attribute to node and return node."
match result {
Err(e) => return Err(e),
Ok(NodeFilterConstants::FILTER_ACCEPT) => {
self.current_node.set(JS::from_rooted(node));
return Ok(Some(Temporary::from_rooted(node)))
},
_ => {}
}
// "4. Set sibling to node's first child if type is next,
// and node's last child if type is previous."
sibling_op = next_child(node);
// "5. If result is FILTER_REJECT or sibling is null,
// then set sibling to node's next sibling if type is next,
// and node's previous sibling if type is previous."
match (result, sibling_op) {
(Ok(NodeFilterConstants::FILTER_REJECT), _)
| (_, None) => sibling_op = next_sibling(node),
_ => {}
}
}
// "3. Set node to its parent."
match node.parent_node().map(|p| p.root().clone()) {
// "4. If node is null or is root, return null."
None => return Ok(None),
Some(n) if self.is_root_node(n) => return Ok(None),
// "5. Filter node and if the return value is FILTER_ACCEPT, then return null."
Some(n) => {
node = n;
match self.accept_node(node) {
Err(e) => return Err(e),
Ok(NodeFilterConstants::FILTER_ACCEPT) => return Ok(None),
_ => {}
}
}
}
// "6. Run these substeps again."
}
}
// http://dom.spec.whatwg.org/#concept-tree-following
fn first_following_node_not_following_root(self, node: JSRef<'a, Node>)
-> Option<Temporary<Node>> {
// "An object A is following an object B if A and B are in the same tree
// and A comes after B in tree order."
match node.next_sibling() {
None => {
let mut candidate = node;
while !self.is_root_node(candidate) && candidate.next_sibling().is_none() {
match candidate.parent_node() {
None =>
// This can happen if the user set the current node to somewhere
// outside of the tree rooted at the original root.
return None,
Some(n) => candidate = n.root().clone()
}
}
if self.is_root_node(candidate) {
None
} else {
candidate.next_sibling()
}
},
it => it
}
}
// http://dom.spec.whatwg.org/#concept-node-filter
fn accept_node(self, node: JSRef<'a, Node>) -> Fallible<u16> {
// "To filter node run these steps:"
// "1. Let n be node's nodeType attribute value minus 1."
let n: uint = node.NodeType() as uint - 1;
// "2. If the nth bit (where 0 is the least significant bit) of whatToShow is not set,
// return FILTER_SKIP."
if (self.what_to_show & (1 << n)) == 0 {
return Ok(NodeFilterConstants::FILTER_SKIP)
}
// "3. If filter is null, return FILTER_ACCEPT."
// "4. Let result be the return value of invoking filter."
// "5. If an exception was thrown, re-throw the exception."
// "6. Return result."
match self.filter {
FilterNone => Ok(NodeFilterConstants::FILTER_ACCEPT),
FilterNative(f) => Ok((f)(node)),
FilterJS(callback) => callback.AcceptNode_(self, node, RethrowExceptions)
}
}
fn is_root_node(self, node: JSRef<'a, Node>) -> bool {
JS::from_rooted(node) == self.root_node
}
fn is_current_node(self, node: JSRef<'a, Node>) -> bool {
JS::from_rooted(node) == self.current_node.get()
}
}
pub trait TreeWalkerHelpers<'a> {
fn parent_node(self) -> Fallible<Option<Temporary<Node>>>;
fn first_child(self) -> Fallible<Option<Temporary<Node>>>;
fn last_child(self) -> Fallible<Option<Temporary<Node>>>;
fn next_sibling(self) -> Fallible<Option<Temporary<Node>>>;
fn prev_sibling(self) -> Fallible<Option<Temporary<Node>>>;
fn next_node(self) -> Fallible<Option<Temporary<Node>>>;
fn prev_node(self) -> Fallible<Option<Temporary<Node>>>;
}
impl<'a> TreeWalkerHelpers<'a> for JSRef<'a, TreeWalker> {
// http://dom.spec.whatwg.org/#dom-treewalker-parentnode
fn parent_node(self) -> Fallible<Option<Temporary<Node>>> {
// "1. Let node be the value of the currentNode attribute."
let mut node = self.current_node.get().root().clone();
// "2. While node is not null and is not root, run these substeps:"
while !self.is_root_node(node) {
// "1. Let node be node's parent."
match node.parent_node() {
Some(n) => {
node = n.root().clone();
// "2. If node is not null and filtering node returns FILTER_ACCEPT,
// then set the currentNode attribute to node, return node."
match self.accept_node(node) {
Err(e) => return Err(e),
Ok(NodeFilterConstants::FILTER_ACCEPT) => {
self.current_node.set(JS::from_rooted(node));
return Ok(Some(Temporary::from_rooted(node)))
},
_ => {}
}
},
None => break,
}
}
// "3. Return null."
Ok(None)
}
// http://dom.spec.whatwg.org/#dom-treewalker-firstchild
fn first_child(self) -> Fallible<Option<Temporary<Node>>> {
// "The firstChild() method must traverse children of type first."
self.traverse_children(|node| node.first_child(),
|node| node.next_sibling())
}
// http://dom.spec.whatwg.org/#dom-treewalker-lastchild
fn last_child(self) -> Fallible<Option<Temporary<Node>>> {
// "The lastChild() method must traverse children of type last."
self.traverse_children(|node| node.last_child(),
|node| node.prev_sibling())
}
// http://dom.spec.whatwg.org/#dom-treewalker-nextsibling
fn next_sibling(self) -> Fallible<Option<Temporary<Node>>> {
// "The nextSibling() method must traverse siblings of type next."
self.traverse_siblings(|node| node.first_child(),
|node| node.next_sibling())
}
// http://dom.spec.whatwg.org/#dom-treewalker-previoussibling
fn prev_sibling(self) -> Fallible<Option<Temporary<Node>>> {
// "The previousSibling() method must traverse siblings of type previous."
self.traverse_siblings(|node| node.last_child(),
|node| node.prev_sibling())
}
// http://dom.spec.whatwg.org/#dom-treewalker-previousnode
fn prev_node(self) -> Fallible<Option<Temporary<Node>>> {
// "1. Let node be the value of the currentNode attribute."
let mut node = self.current_node.get().root().clone();
// "2. While node is not root, run these substeps:"
while !self.is_root_node(node) {
// "1. Let sibling be the previous sibling of node."
let mut sibling_op = node.prev_sibling();
// "2. While sibling is not null, run these subsubsteps:"
while sibling_op.is_some() {
// "1. Set node to sibling."
node = sibling_op.unwrap().root().clone();
// "2. Filter node and let result be the return value."
// "3. While result is not FILTER_REJECT and node has a child,
// set node to its last child and then filter node and
// set result to the return value."
// "4. If result is FILTER_ACCEPT, then
// set the currentNode attribute to node and return node."
loop {
match self.accept_node(node) {
Err(e) => return Err(e),
Ok(NodeFilterConstants::FILTER_REJECT) => break,
_ if node.first_child().is_some() =>
node = node.last_child().unwrap().root().clone(),
Ok(NodeFilterConstants::FILTER_ACCEPT) => {
self.current_node.set(JS::from_rooted(node));
return Ok(Some(Temporary::from_rooted(node)))
},
_ => break
}
}
// "5. Set sibling to the previous sibling of node."
sibling_op = node.prev_sibling()
}
// "3. If node is root or node's parent is null, return null."
if self.is_root_node(node) || node.parent_node() == None {
return Ok(None)
}
// "4. Set node to its parent."
match node.parent_node() {
None =>
// This can happen if the user set the current node to somewhere
// outside of the tree rooted at the original root.
return Ok(None),
Some(n) => node = n.root().clone()
}
// "5. Filter node and if the return value is FILTER_ACCEPT, then
// set the currentNode attribute to node and return node."
match self.accept_node(node) {
Err(e) => return Err(e),
Ok(NodeFilterConstants::FILTER_ACCEPT) => {
self.current_node.set(JS::from_rooted(node));
return Ok(Some(Temporary::from_rooted(node)))
},
_ => {}
}
}
// "6. Return null."
Ok(None)
}
// http://dom.spec.whatwg.org/#dom-treewalker-nextnode
fn next_node(self) -> Fallible<Option<Temporary<Node>>> {
// "1. Let node be the value of the currentNode attribute."
let mut node = self.current_node.get().root().clone();
// "2. Let result be FILTER_ACCEPT."
let mut result = Ok(NodeFilterConstants::FILTER_ACCEPT);
// "3. Run these substeps:"
loop {
// "1. While result is not FILTER_REJECT and node has a child, run these subsubsteps:"
loop {
match result {
Ok(NodeFilterConstants::FILTER_REJECT) => break,
_ => {}
}
match node.first_child() {
None => break,
Some (child) => {
// "1. Set node to its first child."
node = child.root().clone();
// "2. Filter node and set result to the return value."
result = self.accept_node(node);
// "3. If result is FILTER_ACCEPT, then
// set the currentNode attribute to node and return node."
match result {
Err(e) => return Err(e),
Ok(NodeFilterConstants::FILTER_ACCEPT) => {
self.current_node.set(JS::from_rooted(node));
return Ok(Some(Temporary::from_rooted(node)))
},
_ => {}
}
}
}
}
// "2. If a node is following node and is not following root,
// set node to the first such node."
// "Otherwise, return null."
match self.first_following_node_not_following_root(node) {
None => return Ok(None),
Some(n) => {
node = n.root().clone();
// "3. Filter node and set result to the return value."
result = self.accept_node(node);
// "4. If result is FILTER_ACCEPT, then
// set the currentNode attribute to node and return node."
match result {
Err(e) => return Err(e),
Ok(NodeFilterConstants::FILTER_ACCEPT) => {
self.current_node.set(JS::from_rooted(node));
return Ok(Some(Temporary::from_rooted(node)))
},
_ => {}
}
}
}
// "5. Run these substeps again."
}
}
}
impl<'a> Iterator<JSRef<'a, Node>> for JSRef<'a, TreeWalker> {
fn next(&mut self) -> Option<JSRef<'a, Node>> {
match self.next_node() {
Ok(node) => node.map(|n| n.root().clone()),
Err(_) =>
// The Err path happens only when a JavaScript
// NodeFilter throws an exception. This iterator
// is meant for internal use from Rust code, which
// will probably be using a native Rust filter,
// which cannot produce an Err result.
unreachable!()
}
}
}
#[jstraceable]
pub enum Filter {
FilterNone,
FilterNative(fn (node: JSRef<Node>) -> u16),
FilterJS(NodeFilter)
}
// FIXME: NodeFilterConstants will be defined in NodeFilterBindings.rs
// when codegen supports a callback interface with constants (#3149).
pub mod NodeFilterConstants {
pub static FILTER_ACCEPT: u16 = 1;
pub static FILTER_REJECT: u16 = 2;
pub static FILTER_SKIP: u16 = 3;
pub static SHOW_ALL: u32 = 4294967295;
pub static SHOW_ELEMENT: u32 = 1;
pub static SHOW_ATTRIBUTE: u32 = 2;
pub static SHOW_TEXT: u32 = 4;
pub static SHOW_CDATA_SECTION: u32 = 8;
pub static SHOW_ENTITY_REFERENCE: u32 = 16;
pub static SHOW_ENTITY: u32 = 32;
pub static SHOW_PROCESSING_INSTRUCTION: u32 = 64;
pub static SHOW_COMMENT: u32 = 128;
pub static SHOW_DOCUMENT: u32 = 256;
pub static SHOW_DOCUMENT_TYPE: u32 = 512;
pub static SHOW_DOCUMENT_FRAGMENT: u32 = 1024;
pub static SHOW_NOTATION: u32 = 2048;
} // mod NodeFilterConstants
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