mirror of https://github.com/zulip/zulip.git
203 lines
5.6 KiB
JavaScript
203 lines
5.6 KiB
JavaScript
exports.eq_array = (a, b, eq) => {
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if (a === b) {
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// either both are undefined, or they
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// are referentially equal
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return true;
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}
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if (a === undefined || b === undefined) {
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return false;
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}
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if (a.length !== b.length) {
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return false;
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}
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return _.all(a, (item, i) => {
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return eq(item, b[i]);
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});
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};
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exports.ul = (opts) => {
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return {
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tag_name: 'ul',
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opts: opts,
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};
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};
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exports.render_tag = (tag) => {
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/*
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This renders a tag into a string. It will
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automatically escape attributes, but it's your
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responsibility to make sure keyed_nodes provide
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a `render` method that escapes HTML properly.
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(One option is to use templates.)
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Do NOT call this method directly, except for
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testing. The vdom scheme expects you to use
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the `update` method.
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*/
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const opts = tag.opts;
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const tag_name = tag.tag_name;
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const attr_str = _.map(opts.attrs, (attr) => {
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return ' ' + attr[0] + '="' + util.escape_html(attr[1]) + '"';
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}).join('');
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const start_tag = '<' + tag_name + attr_str + '>';
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const end_tag = '</' + tag_name + '>';
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if (opts.keyed_nodes === undefined) {
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blueslip.error("We need keyed_nodes to render innards.");
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return;
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}
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const innards = _.map(opts.keyed_nodes, (node) => {
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return node.render();
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}).join('\n');
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return start_tag + '\n' + innards + '\n' + end_tag;
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};
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exports.update = (container, new_dom, old_dom) => {
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/*
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The update method allows you to continually
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update a "virtual" representation of your DOM,
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and then this method actually updates the
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real DOM in a container using jQuery.
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The first "update" will be more like a create,
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because your `old_dom` should be undefined.
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After that initial call, it is important that
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you always pass in a correct value of `old_dom`;
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otherwise, things will be incredibly confusing.
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The basic scheme here is simple:
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1) If old_dom is undefined, we render
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everything for the first time into
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the container.
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2) If the keys of your new children are no
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longer the same order as the old
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children, then we just render
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everything anew into the container.
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(We may refine this in the future.)
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3) If your key structure remains the same,
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then we update your child nodes on
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a child-by-child basis, and we avoid
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updates where the data had remained
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the same.
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The key to making this all work is that
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`new_dom` should include a `keyed_nodes` option
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where each `keyed_node` has a `key` and supports
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these methods:
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eq - can compare itself to similar nodes
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for data equality
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render - can create an HTML representation
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of itself
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The `new_dom` should generally be created with
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something like `vdom.ul`, which will set a
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tag field internally and which will want options
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like `attrs` for attributes.
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For examples of creating vdom objects, look at
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`pm_list_dom.js`.
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*/
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function do_full_update() {
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const rendered_dom = exports.render_tag(new_dom);
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container.html(rendered_dom);
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}
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if (old_dom === undefined) {
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do_full_update();
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return;
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}
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const new_opts = new_dom.opts;
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const old_opts = old_dom.opts;
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if (new_opts.keyed_nodes === undefined) {
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// We generally want to use vdom on lists, and
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// adding keys for childrens lets us avoid unnecessary
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// redraws (or lets us know we should just rebuild
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// the dom).
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blueslip.error("We need keyed_nodes for updates.");
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return;
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}
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const same_structure = exports.eq_array(
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new_opts.keyed_nodes,
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old_opts.keyed_nodes,
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(a, b) => a.key === b.key
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);
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if (!same_structure) {
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/* We could do something smarter like detecting row
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moves, but it's overkill for small lists.
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*/
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do_full_update();
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return;
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}
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/*
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DO "QUICK" UPDATES:
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We've gotten this far, so we know we have the
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same overall structure for our parent tag, and
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the only thing left to do with our child nodes
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is to possibly update them in place (via jQuery).
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We will only update nodes whose data has changed.
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*/
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const tag_name = new_dom.tag_name;
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const child_elems = container.find(tag_name).children();
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_.each(new_opts.keyed_nodes, (new_node, i) => {
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const old_node = old_opts.keyed_nodes[i];
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if (new_node.eq(old_node)) {
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return;
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}
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const rendered_dom = new_node.render();
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child_elems.eq(i).replaceWith(rendered_dom);
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});
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exports.update_attrs(
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container.find(tag_name),
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new_opts.attrs,
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old_opts.attrs
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);
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};
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exports.update_attrs = (elem, new_attrs, old_attrs) => {
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function make_dict(attrs) {
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const dict = {};
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_.each(attrs, (attr) => {
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const k = attr[0];
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const v = attr[1];
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dict[k] = v;
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});
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return dict;
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}
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const new_dict = make_dict(new_attrs);
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const old_dict = make_dict(old_attrs);
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_.each(new_dict, (v, k) => {
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if (v !== old_dict[k]) {
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elem.attr(k, v);
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}
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});
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_.each(old_dict, (v, k) => {
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if (new_dict[k] === undefined) {
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elem.removeAttr(k);
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}
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});
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};
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window.vdom = exports;
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