0
Fork 0
mirror of https://github.com/fastmail/Squire.git synced 2024-12-22 23:40:35 -05:00
Squire/source/range/Boundaries.ts

188 lines
5.8 KiB
TypeScript
Raw Normal View History

import { isLeaf } from '../node/Category';
import { getLength, getNearest } from '../node/Node';
import { isLineBreak } from '../node/Whitespace';
import { TEXT_NODE } from '../Constants';
// ---
const START_TO_START = 0; // Range.START_TO_START
const START_TO_END = 1; // Range.START_TO_END
const END_TO_END = 2; // Range.END_TO_END
const END_TO_START = 3; // Range.END_TO_START
const isNodeContainedInRange = (
range: Range,
node: Node,
partial: boolean,
): boolean => {
const nodeRange = document.createRange();
nodeRange.selectNode(node);
if (partial) {
// Node must not finish before range starts or start after range
// finishes.
const nodeEndBeforeStart =
range.compareBoundaryPoints(END_TO_START, nodeRange) > -1;
const nodeStartAfterEnd =
range.compareBoundaryPoints(START_TO_END, nodeRange) < 1;
return !nodeEndBeforeStart && !nodeStartAfterEnd;
} else {
// Node must start after range starts and finish before range
// finishes
const nodeStartAfterStart =
range.compareBoundaryPoints(START_TO_START, nodeRange) < 1;
const nodeEndBeforeEnd =
range.compareBoundaryPoints(END_TO_END, nodeRange) > -1;
return nodeStartAfterStart && nodeEndBeforeEnd;
}
};
/**
* Moves the range to an equivalent position with the start/end as deep in
* the tree as possible.
*/
const moveRangeBoundariesDownTree = (range: Range): void => {
let { startContainer, startOffset, endContainer, endOffset } = range;
while (!(startContainer instanceof Text)) {
let child: ChildNode | null = startContainer.childNodes[startOffset];
if (!child || isLeaf(child)) {
if (startOffset) {
child = startContainer.childNodes[startOffset - 1];
if (child instanceof Text) {
// Need a new variable to satisfy TypeScript's type checker
// for some reason.
let textChild: Text = child;
// If we have an empty text node next to another text node,
// just skip and remove it.
let prev: ChildNode | null;
while (
!textChild.length &&
(prev = textChild.previousSibling) &&
prev instanceof Text
) {
textChild.remove();
textChild = prev;
}
startContainer = textChild;
startOffset = textChild.data.length;
}
}
break;
}
startContainer = child;
startOffset = 0;
}
if (endOffset) {
while (!(endContainer instanceof Text)) {
const child = endContainer.childNodes[endOffset - 1];
if (!child || isLeaf(child)) {
if (
child &&
child.nodeName === 'BR' &&
!isLineBreak(child as Element, false)
) {
endOffset -= 1;
continue;
}
break;
}
endContainer = child;
endOffset = getLength(endContainer);
}
} else {
while (!(endContainer instanceof Text)) {
const child = endContainer.firstChild!;
if (!child || isLeaf(child)) {
break;
}
endContainer = child;
}
}
range.setStart(startContainer, startOffset);
range.setEnd(endContainer, endOffset);
};
const moveRangeBoundariesUpTree = (
range: Range,
startMax: Node,
endMax: Node,
root: Node,
): void => {
let startContainer = range.startContainer;
let startOffset = range.startOffset;
let endContainer = range.endContainer;
let endOffset = range.endOffset;
let parent: Node;
if (!startMax) {
startMax = range.commonAncestorContainer;
}
if (!endMax) {
endMax = startMax;
}
while (
!startOffset &&
startContainer !== startMax &&
startContainer !== root
) {
parent = startContainer.parentNode!;
startOffset = Array.from(parent.childNodes).indexOf(
startContainer as ChildNode,
);
startContainer = parent;
}
while (true) {
if (endContainer === endMax || endContainer === root) {
break;
}
if (
endContainer.nodeType !== TEXT_NODE &&
endContainer.childNodes[endOffset] &&
endContainer.childNodes[endOffset].nodeName === 'BR' &&
!isLineBreak(endContainer.childNodes[endOffset] as Element, false)
) {
endOffset += 1;
}
if (endOffset !== getLength(endContainer)) {
break;
}
parent = endContainer.parentNode!;
endOffset =
Array.from(parent.childNodes).indexOf(endContainer as ChildNode) +
1;
endContainer = parent;
}
range.setStart(startContainer, startOffset);
range.setEnd(endContainer, endOffset);
};
const moveRangeBoundaryOutOf = (
range: Range,
tag: string,
root: Element,
): Range => {
let parent = getNearest(range.endContainer, root, tag);
if (parent && (parent = parent.parentNode)) {
const clone = range.cloneRange();
moveRangeBoundariesUpTree(clone, parent, parent, root);
if (clone.endContainer === parent) {
range.setStart(clone.endContainer, clone.endOffset);
range.setEnd(clone.endContainer, clone.endOffset);
}
}
return range;
};
// ---
export {
isNodeContainedInRange,
moveRangeBoundariesDownTree,
moveRangeBoundariesUpTree,
moveRangeBoundaryOutOf,
};