module LucidApp module NativeLucidComponentConstructor # 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 def self.extended(base) component_name = base.to_s # language=JS %x{ base.lucid_react_component = class extends Opal.global.React.Component { constructor(props) { super(props); if (base.$default_state_defined()) { this.state = base.$state().$to_n(); } else { this.state = {}; }; this.state.isomorfeus_store_state = Opal.Isomorfeus.store.native.getState(); var current_store_state = this.state.isomorfeus_store_state; if (typeof current_store_state.component_class_state[#{component_name}] !== "undefined") { this.state.component_class_state = {}; this.state.component_class_state[#{component_name}] = current_store_state.component_class_state[#{component_name}]; } else { this.state.component_class_state = {}; this.state.component_class_state[#{component_name}] = {}; }; this.__ruby_instance = base.$new(this); this.__object_id = this.__ruby_instance.$object_id().$to_s(); if (Opal.Isomorfeus.$top_component() == nil) { Opal.Isomorfeus['$top_component='](this); } if (!this.state.component_state) { this.state.component_state = {}; this.state.component_state[this.__object_id] = {}; }; var event_handlers = #{base.event_handlers}; for (var i = 0; i < event_handlers.length; i++) { this[event_handlers[i]] = this[event_handlers[i]].bind(this); } var defined_refs = #{base.defined_refs}; for (var ref in defined_refs) { if (defined_refs[ref] != null) { this[ref] = function(element) { element = Opal.React.native_element_or_component_to_ruby(element); #{`this.__ruby_instance`.instance_exec(`element`, &`defined_refs[ref]`)} } this[ref] = this[ref].bind(this); } else { this[ref] = Opal.global.React.createRef(); } } if (base.preload_block) { this.state.preloaded = this.__ruby_instance.$execute_preload_block(); } this.listener = this.listener.bind(this); this.unsubscriber = Opal.Isomorfeus.store.native.subscribe(this.listener); } static get displayName() { return #{component_name}; } static set displayName(new_name) { // dont do anything here except returning the set value return new_name; } render() { const oper = Opal.React; this.context = this.state.isomorfeus_store_state; oper.render_buffer.push([]); // console.log("lucid app pushed", oper.render_buffer, oper.render_buffer.toString()); oper.active_components.push(this); oper.active_redux_components.push(this); let block_result; if (base.while_loading_block && !this.state.preloaded) { block_result = #{`this.__ruby_instance`.instance_exec(&`base.while_loading_block`)}; } else { block_result = #{`this.__ruby_instance`.instance_exec(&`base.render_block`)}; } if (block_result && (block_result.constructor === String || block_result.constructor === Number)) { oper.render_buffer[oper.render_buffer.length - 1].push(block_result); } oper.active_redux_components.pop(); oper.active_components.pop(); // console.log("lucid app popping", oper.render_buffer, oper.render_buffer.toString()); return Opal.global.React.createElement(Opal.global.LucidApplicationContext.Provider, { value: this.state.isomorfeus_store_state }, oper.render_buffer.pop()); } data_access() { return this.context; } listener() { let next_state = Opal.Isomorfeus.store.native.getState(); this.setState({ isomorfeus_store_state: next_state }); } componentWillUnmount() { if (typeof this.unsubscriber === "function") { this.unsubscriber(); } } validateProp(props, propName, componentName) { try { base.$validate_prop(propName, props[propName]) } catch (e) { return new Error(componentName + ": Error: prop validation failed: " + e.message); } return null; } } base.preload_block = null; base.while_loading_block = null; base.jss_styles = null; base.use_styles = null; } end end end