chore: refactor `RegularElement` visitor (#13350)

* WIP

* tidy

* simplify

* simplify

* more

* more

* use a switch

* alphabetize

* simplify

* group stuff

* rename

* simplify

* shuffle

* shuffle

* doh
pull/13353/head
Rich Harris 3 months ago committed by GitHub
parent 9e511b141c
commit 13cb3855da
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@ -58,16 +58,20 @@ export function RegularElement(node, context) {
return; return;
} }
const is_custom_element = is_custom_element_node(node);
if (is_custom_element) {
// cloneNode is faster, but it does not instantiate the underlying class of the
// custom element until the template is connected to the dom, which would
// cause problems when setting properties on the custom element.
// Therefore we need to use importNode instead, which doesn't have this caveat.
context.state.metadata.context.template_needs_import_node = true;
}
if (node.name === 'script') { if (node.name === 'script') {
context.state.metadata.context.template_contains_script_tag = true; context.state.metadata.context.template_contains_script_tag = true;
} }
const metadata = context.state.metadata;
const child_metadata = {
...context.state.metadata,
namespace: determine_namespace_for_children(node, context.state.metadata.namespace)
};
context.state.template.push(`<${node.name}`); context.state.template.push(`<${node.name}`);
/** @type {Array<AST.Attribute | AST.SpreadAttribute>} */ /** @type {Array<AST.Attribute | AST.SpreadAttribute>} */
@ -79,151 +83,138 @@ export function RegularElement(node, context) {
/** @type {AST.StyleDirective[]} */ /** @type {AST.StyleDirective[]} */
const style_directives = []; const style_directives = [];
/** @type {Array<AST.AnimateDirective | AST.BindDirective | AST.OnDirective | AST.TransitionDirective | AST.UseDirective>} */
const other_directives = [];
/** @type {ExpressionStatement[]} */ /** @type {ExpressionStatement[]} */
const lets = []; const lets = [];
const is_custom_element = is_custom_element_node(node); /** @type {Map<string, AST.Attribute>} */
let needs_input_reset = false; const lookup = new Map();
let needs_content_reset = false;
/** @type {AST.BindDirective | null} */
let value_binding = null;
/** If true, needs `__value` for inputs */ /** @type {Map<string, AST.BindDirective>} */
let needs_special_value_handling = node.name === 'option' || node.name === 'select'; const bindings = new Map();
let is_content_editable = false;
let has_content_editable_binding = false;
let img_might_be_lazy = false;
let might_need_event_replaying = false;
let has_direction_attribute = false;
let has_style_attribute = false;
if (is_custom_element) { let has_spread = false;
// cloneNode is faster, but it does not instantiate the underlying class of the let has_use = false;
// custom element until the template is connected to the dom, which would
// cause problems when setting properties on the custom element.
// Therefore we need to use importNode instead, which doesn't have this caveat.
metadata.context.template_needs_import_node = true;
}
// visit let directives first, to set state
for (const attribute of node.attributes) { for (const attribute of node.attributes) {
if (attribute.type === 'LetDirective') { switch (attribute.type) {
case 'AnimateDirective':
other_directives.push(attribute);
break;
case 'Attribute':
attributes.push(attribute);
lookup.set(attribute.name, attribute);
break;
case 'BindDirective':
bindings.set(attribute.name, attribute);
other_directives.push(attribute);
break;
case 'ClassDirective':
class_directives.push(attribute);
break;
case 'LetDirective':
// visit let directives before everything else, to set state
lets.push(/** @type {ExpressionStatement} */ (context.visit(attribute))); lets.push(/** @type {ExpressionStatement} */ (context.visit(attribute)));
} break;
}
for (const attribute of node.attributes) { case 'OnDirective':
if (attribute.type === 'Attribute') { other_directives.push(attribute);
break;
case 'SpreadAttribute':
attributes.push(attribute); attributes.push(attribute);
if (node.name === 'img' && attribute.name === 'loading') { has_spread = true;
img_might_be_lazy = true; break;
}
if (attribute.name === 'dir') { case 'StyleDirective':
has_direction_attribute = true; style_directives.push(attribute);
} break;
if (attribute.name === 'style') {
has_style_attribute = true; case 'TransitionDirective':
} other_directives.push(attribute);
if ( break;
(attribute.name === 'value' || attribute.name === 'checked') &&
!is_text_attribute(attribute) case 'UseDirective':
) { has_use = true;
needs_input_reset = true; other_directives.push(attribute);
needs_content_reset = true; break;
} else if (
attribute.name === 'contenteditable' &&
(attribute.value === true ||
(is_text_attribute(attribute) && attribute.value[0].data === 'true'))
) {
is_content_editable = true;
} }
} else if (attribute.type === 'SpreadAttribute') {
attributes.push(attribute);
needs_input_reset = true;
needs_content_reset = true;
if (is_load_error_element(node.name)) {
might_need_event_replaying = true;
} }
} else if (attribute.type === 'ClassDirective') {
class_directives.push(attribute); for (const attribute of other_directives) {
} else if (attribute.type === 'StyleDirective') { if (attribute.type === 'OnDirective') {
style_directives.push(attribute);
} else if (attribute.type === 'OnDirective') {
const handler = /** @type {Expression} */ (context.visit(attribute)); const handler = /** @type {Expression} */ (context.visit(attribute));
const has_action_directive = node.attributes.find((a) => a.type === 'UseDirective');
context.state.after_update.push( context.state.after_update.push(
b.stmt(has_action_directive ? b.call('$.effect', b.thunk(handler)) : handler) b.stmt(has_use ? b.call('$.effect', b.thunk(handler)) : handler)
); );
} else if (attribute.type !== 'LetDirective') { } else {
if (attribute.type === 'BindDirective') {
if (attribute.name === 'group' || attribute.name === 'checked') {
needs_special_value_handling = true;
needs_input_reset = true;
} else if (attribute.name === 'value') {
value_binding = attribute;
needs_content_reset = true;
needs_input_reset = true;
} else if (
attribute.name === 'innerHTML' ||
attribute.name === 'innerText' ||
attribute.name === 'textContent'
) {
has_content_editable_binding = true;
}
} else if (attribute.type === 'UseDirective' && is_load_error_element(node.name)) {
might_need_event_replaying = true;
}
context.visit(attribute); context.visit(attribute);
} }
} }
if (is_content_editable && has_content_editable_binding) { if (
child_metadata.bound_contenteditable = true; node.name === 'input' &&
} (has_spread ||
bindings.has('value') ||
if (needs_input_reset && node.name === 'input') { bindings.has('checked') ||
bindings.has('group') ||
attributes.some(
(attribute) =>
attribute.type === 'Attribute' &&
(attribute.name === 'value' || attribute.name === 'checked') &&
!is_text_attribute(attribute)
))
) {
context.state.init.push(b.stmt(b.call('$.remove_input_defaults', context.state.node))); context.state.init.push(b.stmt(b.call('$.remove_input_defaults', context.state.node)));
} }
if (needs_content_reset && node.name === 'textarea') { if (node.name === 'textarea') {
const attribute = lookup.get('value') ?? lookup.get('checked');
const needs_content_reset = attribute && !is_text_attribute(attribute);
if (has_spread || bindings.has('value') || needs_content_reset) {
context.state.init.push(b.stmt(b.call('$.remove_textarea_child', context.state.node))); context.state.init.push(b.stmt(b.call('$.remove_textarea_child', context.state.node)));
} }
if (value_binding !== null && node.name === 'select') {
setup_select_synchronization(value_binding, context);
} }
const node_id = context.state.node; if (node.name === 'select' && bindings.has('value')) {
setup_select_synchronization(/** @type {AST.BindDirective} */ (bindings.get('value')), context);
}
// Let bindings first, they can be used on attributes // Let bindings first, they can be used on attributes
context.state.init.push(...lets); context.state.init.push(...lets);
const node_id = context.state.node;
// Then do attributes // Then do attributes
let is_attributes_reactive = false; let is_attributes_reactive = false;
if (node.metadata.has_spread) { if (node.metadata.has_spread) {
if (node.name === 'img') {
img_might_be_lazy = true;
}
build_element_spread_attributes( build_element_spread_attributes(
attributes, attributes,
context, context,
node, node,
node_id, node_id,
// If value binding exists, that one takes care of calling $.init_select // If value binding exists, that one takes care of calling $.init_select
value_binding === null && node.name === 'select' node.name === 'select' && !bindings.has('value')
); );
is_attributes_reactive = true; is_attributes_reactive = true;
} else { } else {
/** If true, needs `__value` for inputs */
const needs_special_value_handling =
node.name === 'option' ||
node.name === 'select' ||
bindings.has('group') ||
bindings.has('checked');
for (const attribute of /** @type {AST.Attribute[]} */ (attributes)) { for (const attribute of /** @type {AST.Attribute[]} */ (attributes)) {
if (is_event_attribute(attribute)) { if (is_event_attribute(attribute)) {
if (
(attribute.name === 'onload' || attribute.name === 'onerror') &&
is_load_error_element(node.name)
) {
might_need_event_replaying = true;
}
visit_event_attribute(attribute, context); visit_event_attribute(attribute, context);
continue; continue;
} }
@ -260,11 +251,6 @@ export function RegularElement(node, context) {
} }
} }
// Apply the src and loading attributes for <img> elements after the element is appended to the document
if (img_might_be_lazy) {
context.state.after_update.push(b.stmt(b.call('$.handle_lazy_img', node_id)));
}
// class/style directives must be applied last since they could override class/style attributes // class/style directives must be applied last since they could override class/style attributes
build_class_directives(class_directives, node_id, context, is_attributes_reactive); build_class_directives(class_directives, node_id, context, is_attributes_reactive);
build_style_directives( build_style_directives(
@ -272,23 +258,45 @@ export function RegularElement(node, context) {
node_id, node_id,
context, context,
is_attributes_reactive, is_attributes_reactive,
has_style_attribute || node.metadata.has_spread lookup.has('style') || node.metadata.has_spread
); );
if (might_need_event_replaying) { // Apply the src and loading attributes for <img> elements after the element is appended to the document
if (node.name === 'img' && (has_spread || lookup.has('loading'))) {
context.state.after_update.push(b.stmt(b.call('$.handle_lazy_img', node_id)));
}
if (
is_load_error_element(node.name) &&
(has_spread || has_use || lookup.has('onload') || lookup.has('onerror'))
) {
context.state.after_update.push(b.stmt(b.call('$.replay_events', node_id))); context.state.after_update.push(b.stmt(b.call('$.replay_events', node_id)));
} }
context.state.template.push('>'); context.state.template.push('>');
/** @type {SourceLocation[]} */ const metadata = {
const child_locations = []; ...context.state.metadata,
namespace: determine_namespace_for_children(node, context.state.metadata.namespace)
};
if (bindings.has('innerHTML') || bindings.has('innerText') || bindings.has('textContent')) {
const contenteditable = lookup.get('contenteditable');
if (
contenteditable &&
(contenteditable.value === true ||
(is_text_attribute(contenteditable) && contenteditable.value[0].data === 'true'))
) {
metadata.bound_contenteditable = true;
}
}
/** @type {ComponentClientTransformState} */ /** @type {ComponentClientTransformState} */
const state = { const state = {
...context.state, ...context.state,
metadata: child_metadata, metadata,
locations: child_locations, locations: [],
scope: /** @type {Scope} */ (context.state.scopes.get(node.fragment)), scope: /** @type {Scope} */ (context.state.scopes.get(node.fragment)),
preserve_whitespace: preserve_whitespace:
context.state.preserve_whitespace || node.name === 'pre' || node.name === 'textarea' context.state.preserve_whitespace || node.name === 'pre' || node.name === 'textarea'
@ -298,15 +306,12 @@ export function RegularElement(node, context) {
node, node,
node.fragment.nodes, node.fragment.nodes,
context.path, context.path,
child_metadata.namespace, state.metadata.namespace,
state, state,
node.name === 'script' || state.preserve_whitespace, node.name === 'script' || state.preserve_whitespace,
state.options.preserveComments state.options.preserveComments
); );
/** Whether or not we need to wrap the children in `{...}` to avoid declaration conflicts */
const has_declaration = node.fragment.nodes.some((node) => node.type === 'SnippetBlock');
/** @type {typeof state} */ /** @type {typeof state} */
const child_state = { ...state, init: [], update: [], after_update: [] }; const child_state = { ...state, init: [], update: [], after_update: [] };
@ -357,7 +362,8 @@ export function RegularElement(node, context) {
} }
} }
if (has_declaration) { if (node.fragment.nodes.some((node) => node.type === 'SnippetBlock')) {
// Wrap children in `{...}` to avoid declaration conflicts
context.state.init.push( context.state.init.push(
b.block([ b.block([
...child_state.init, ...child_state.init,
@ -371,16 +377,16 @@ export function RegularElement(node, context) {
context.state.after_update.push(...child_state.after_update); context.state.after_update.push(...child_state.after_update);
} }
if (has_direction_attribute) { if (lookup.has('dir')) {
// This fixes an issue with Chromium where updates to text content within an element // This fixes an issue with Chromium where updates to text content within an element
// does not update the direction when set to auto. If we just re-assign the dir, this fixes it. // does not update the direction when set to auto. If we just re-assign the dir, this fixes it.
const dir = b.member(node_id, 'dir'); const dir = b.member(node_id, 'dir');
context.state.update.push(b.stmt(b.assignment('=', dir, dir))); context.state.update.push(b.stmt(b.assignment('=', dir, dir)));
} }
if (child_locations.length > 0) { if (state.locations.length > 0) {
// @ts-expect-error // @ts-expect-error
location.push(child_locations); location.push(state.locations);
} }
if (!is_void(node.name)) { if (!is_void(node.name)) {

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