Module: LucidComponent::NativeComponentConstructor
- Defined in:
- lib/isomorfeus_preact/lucid_component/native_component_constructor.rb
Class Method Summary collapse
-
.extended(base) ⇒ Object
for should_component_update we apply ruby semantics for comparing props to do so, we convert the props to ruby hashes and then compare this makes sure, that for example rubys Nil object gets handled properly.
Class Method Details
.extended(base) ⇒ Object
for should_component_update we apply ruby semantics for comparing props to do so, we convert the props to ruby hashes and then compare this makes sure, that for example rubys Nil object gets handled properly
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# File 'lib/isomorfeus_preact/lucid_component/native_component_constructor.rb', line 5 def self.extended(base) component_name = base.to_s wrapper_name = component_name + 'Wrapper' %x{ base.css_styles = null; base.preload_block = null; base.while_loading_block = null; base.preact_component = function(props) { let value = Opal.global.PreactHooks.useContext(Opal.global.LucidApplicationContext); return Opal.global.Preact.createElement(base.lucid_preact_component, Object.assign({}, props, value)); }; base.preact_component.displayName = #{wrapper_name}; base.lucid_preact_component = class extends Opal.global.Preact.Component { constructor(props) { super(props); const oper = Opal.Preact; if (base.$default_state_defined()) { this.state = base.$state().$to_n(); } else { this.state = {}; }; this.__ruby_instance = base.$new(this); var defined_refs = base.$defined_refs(); for (var ref in defined_refs) { if (defined_refs[ref] != null) { let r = ref; // to ensure closure for function below gets correct ref name this[ref] = function(element) { element = oper.native_element_or_component_to_ruby(element); oper.register_active_component(this); try { #{`this.__ruby_instance`.instance_exec(`element`, &`defined_refs[r]`)} } catch (e) { console.error(e.message === nil ? 'error at' : e.message, e.stack); } oper.unregister_active_component(this); } this[ref] = this[ref].bind(this); } else { this[ref] = Opal.global.Preact.createRef(); } } if (base.preload_block) { oper.register_active_component(this); this.state.preloaded = this.__ruby_instance.$execute_preload_block(); // caught in execute_preload_block itself oper.unregister_active_component(this); } } static get displayName() { return #{component_name}; } render(props, state) { const oper = Opal.Preact; oper.render_buffer.push([]); oper.register_active_component(this); let block_result; try { if (base.while_loading_block && !state.preloaded) { block_result = #{`this.__ruby_instance`.instance_exec(&`base.while_loading_block`)}; } else { block_result = #{`this.__ruby_instance`.instance_exec(&`base.render_block`)}; } if (block_result && block_result !== nil) { oper.render_block_result(block_result); } } catch (e) { if (oper.using_did_catch) { throw e; } else { console.error(e.message === nil ? 'error at' : e.message, e.stack); } } oper.unregister_active_component(this); let result = oper.render_buffer.pop(); return (result.length === 1) ? result[0] : result; } data_access() { return this.props.iso_store; } shouldComponentUpdate(next_props, next_state) { if (!Opal.Preact.props_are_equal(this.props, next_props)) { return true; } if (Opal.Preact.state_is_not_equal(this.state, next_state)) { return true; } return false; } validateProp(props, propName, componentName) { try { base.$validate_prop(propName, props[propName]) } catch (e) { return new Error(componentName + " Error: prop validation failed: " + e.message); } return null; } }; } end |