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672 lines
24 KiB
Rust
672 lines
24 KiB
Rust
// Copyright © SixtyFPS GmbH <info@slint-ui.com>
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// SPDX-License-Identifier: GPL-3.0-only OR LicenseRef-Slint-commercial
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use by_address::ByAddress;
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use crate::expression_tree::Expression as tree_Expression;
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use crate::langtype::{ElementType, Type};
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use crate::llr::item_tree::*;
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use crate::namedreference::NamedReference;
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use crate::object_tree::{Component, ElementRc, PropertyVisibility};
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use std::collections::HashMap;
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use std::rc::Rc;
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use super::lower_expression::ExpressionContext;
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pub fn lower_to_item_tree(component: &Rc<Component>) -> PublicComponent {
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let mut state = LoweringState::default();
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let mut globals = Vec::new();
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for g in &component.used_types.borrow().globals {
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let count = globals.len();
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globals.push(lower_global(g, count, &mut state));
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}
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for c in &component.used_types.borrow().sub_components {
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let sc = lower_sub_component(c, &state, None);
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state.sub_components.insert(ByAddress(c.clone()), sc);
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}
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let sc = lower_sub_component(component, &state, None);
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let public_properties = public_properties(component, &sc.mapping, &state);
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let item_tree = ItemTree {
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tree: make_tree(&state, &component.root_element, &sc, &[]),
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root: Rc::try_unwrap(sc.sub_component).unwrap(),
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parent_context: None,
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};
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let root = PublicComponent {
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item_tree,
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globals,
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sub_components: component
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.used_types
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.borrow()
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.sub_components
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.iter()
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.map(|tree_sub_compo| {
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state.sub_components[&ByAddress(tree_sub_compo.clone())].sub_component.clone()
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})
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.collect(),
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public_properties,
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};
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super::optim_passes::run_passes(&root);
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root
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}
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#[derive(Default)]
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pub struct LoweringState {
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global_properties: HashMap<NamedReference, PropertyReference>,
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sub_components: HashMap<ByAddress<Rc<Component>>, LoweredSubComponent>,
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}
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#[derive(Debug, Clone)]
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pub enum LoweredElement {
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SubComponent { sub_component_index: usize },
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NativeItem { item_index: usize },
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Repeated { repeated_index: usize },
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}
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#[derive(Default, Debug, Clone)]
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pub struct LoweredSubComponentMapping {
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pub element_mapping: HashMap<ByAddress<ElementRc>, LoweredElement>,
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pub property_mapping: HashMap<NamedReference, PropertyReference>,
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}
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impl LoweredSubComponentMapping {
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pub fn map_property_reference(
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&self,
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from: &NamedReference,
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state: &LoweringState,
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) -> PropertyReference {
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if let Some(x) = self.property_mapping.get(from) {
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return x.clone();
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}
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if let Some(x) = state.global_properties.get(from) {
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return x.clone();
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}
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let element = from.element();
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if let Some(alias) = element
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.borrow()
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.property_declarations
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.get(from.name())
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.and_then(|x| x.is_alias.as_ref())
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{
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return self.map_property_reference(alias, state);
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}
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match self.element_mapping.get(&element.clone().into()).unwrap() {
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LoweredElement::SubComponent { sub_component_index } => {
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if let ElementType::Component(base) = &element.borrow().base_type {
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return property_reference_within_sub_component(
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state.map_property_reference(&NamedReference::new(
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&base.root_element,
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from.name(),
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)),
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*sub_component_index,
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);
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}
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unreachable!()
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}
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LoweredElement::NativeItem { item_index } => {
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return PropertyReference::InNativeItem {
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sub_component_path: vec![],
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item_index: *item_index,
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prop_name: from.name().into(),
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};
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}
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LoweredElement::Repeated { .. } => unreachable!(),
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}
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}
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}
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pub struct LoweredSubComponent {
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sub_component: Rc<SubComponent>,
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mapping: LoweredSubComponentMapping,
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}
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impl LoweringState {
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pub fn map_property_reference(&self, from: &NamedReference) -> PropertyReference {
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if let Some(x) = self.global_properties.get(from) {
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return x.clone();
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}
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let element = from.element();
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let enclosing = self
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.sub_components
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.get(&element.borrow().enclosing_component.upgrade().unwrap().into())
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.unwrap();
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enclosing.mapping.map_property_reference(from, self)
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}
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}
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// Map a PropertyReference within a `sub_component` to a PropertyReference to the component containing it
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fn property_reference_within_sub_component(
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mut prop_ref: PropertyReference,
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sub_component: usize,
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) -> PropertyReference {
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match &mut prop_ref {
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PropertyReference::Local { sub_component_path, .. }
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| PropertyReference::InNativeItem { sub_component_path, .. } => {
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sub_component_path.insert(0, sub_component);
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}
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PropertyReference::InParent { .. } => panic!("the sub-component had no parents"),
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PropertyReference::Global { .. } => (),
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}
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prop_ref
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}
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impl LoweringState {
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fn sub_component(&self, component: &Rc<Component>) -> &LoweredSubComponent {
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&self.sub_components[&ByAddress(component.clone())]
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}
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}
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fn component_id(component: &Rc<Component>) -> String {
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if component.is_global() {
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component.root_element.borrow().id.clone()
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} else if component.id.is_empty() {
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format!("Component_{}", component.root_element.borrow().id)
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} else if component.is_sub_component() {
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format!("{}_{}", component.id, component.root_element.borrow().id)
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} else {
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component.id.clone()
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}
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}
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fn lower_sub_component(
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component: &Rc<Component>,
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state: &LoweringState,
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parent_context: Option<&ExpressionContext>,
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) -> LoweredSubComponent {
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let mut sub_component = SubComponent {
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name: component_id(component),
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properties: Default::default(),
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items: Default::default(),
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repeated: Default::default(),
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popup_windows: Default::default(),
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sub_components: Default::default(),
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property_init: Default::default(),
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animations: Default::default(),
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two_way_bindings: Default::default(),
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const_properties: Default::default(),
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init_code: Default::default(),
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// just initialize to dummy expression right now and it will be set later
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layout_info_h: super::Expression::BoolLiteral(false).into(),
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layout_info_v: super::Expression::BoolLiteral(false).into(),
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accessible_prop: Default::default(),
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prop_analysis: Default::default(),
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};
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let mut mapping = LoweredSubComponentMapping::default();
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let mut repeated = vec![];
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let mut accessible_prop = Vec::new();
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if let Some(parent) = component.parent_element.upgrade() {
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// Add properties for the model data and index
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if parent.borrow().repeated.as_ref().map_or(false, |x| !x.is_conditional_element) {
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sub_component.properties.push(Property {
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name: "model_data".into(),
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ty: crate::expression_tree::Expression::RepeaterModelReference {
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element: component.parent_element.clone(),
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}
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.ty(),
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..Property::default()
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});
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sub_component.properties.push(Property {
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name: "model_index".into(),
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ty: Type::Int32,
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..Property::default()
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});
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}
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};
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let s: Option<ElementRc> = None;
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let mut repeater_offset = 0;
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crate::object_tree::recurse_elem(&component.root_element, &s, &mut |element, parent| {
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let elem = element.borrow();
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for (p, x) in &elem.property_declarations {
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if x.is_alias.is_some() {
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continue;
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}
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let property_index = sub_component.properties.len();
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mapping.property_mapping.insert(
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NamedReference::new(element, p),
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PropertyReference::Local { sub_component_path: vec![], property_index },
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);
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sub_component.properties.push(Property {
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name: format!("{}_{}", elem.id, p),
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ty: x.property_type.clone(),
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..Property::default()
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});
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}
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if elem.repeated.is_some() {
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mapping.element_mapping.insert(
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element.clone().into(),
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LoweredElement::Repeated { repeated_index: repeated.len() },
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);
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repeated.push(element.clone());
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return None;
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}
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match &elem.base_type {
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ElementType::Component(comp) => {
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let lc = state.sub_component(comp);
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let ty = lc.sub_component.clone();
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let sub_component_index = sub_component.sub_components.len();
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mapping.element_mapping.insert(
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element.clone().into(),
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LoweredElement::SubComponent { sub_component_index },
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);
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sub_component.sub_components.push(SubComponentInstance {
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ty: ty.clone(),
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name: elem.id.clone(),
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index_in_tree: *elem.item_index.get().unwrap(),
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index_of_first_child_in_tree: *elem.item_index_of_first_children.get().unwrap(),
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repeater_offset,
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});
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repeater_offset += ty.repeater_count();
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}
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ElementType::Native(n) => {
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let item_index = sub_component.items.len();
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mapping
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.element_mapping
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.insert(element.clone().into(), LoweredElement::NativeItem { item_index });
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let is_flickable_viewport = elem.is_flickable_viewport;
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sub_component.items.push(Item {
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ty: n.clone(),
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name: if is_flickable_viewport {
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parent.as_ref().unwrap().borrow().id.clone()
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} else {
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elem.id.clone()
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},
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index_in_tree: *elem.item_index.get().unwrap(),
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is_flickable_viewport,
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})
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}
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_ => unreachable!(),
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};
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for (key, nr) in &elem.accessibility_props.0 {
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// TODO: we also want to split by type (role/string/...)
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let enum_value =
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crate::generator::to_pascal_case(key.strip_prefix("accessible-").unwrap());
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accessible_prop.push((*elem.item_index.get().unwrap(), enum_value, nr.clone()));
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}
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Some(element.clone())
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});
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let ctx = ExpressionContext { mapping: &mapping, state, parent: parent_context, component };
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crate::generator::handle_property_bindings_init(component, |e, p, binding| {
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let prop = ctx.map_property_reference(&NamedReference::new(e, p));
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for tw in &binding.two_way_bindings {
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sub_component.two_way_bindings.push((prop.clone(), ctx.map_property_reference(tw)))
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}
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if !matches!(binding.expression, tree_Expression::Invalid) {
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let expression =
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super::lower_expression::lower_expression(&binding.expression, &ctx).into();
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let is_constant = binding.analysis.as_ref().map_or(false, |a| a.is_const);
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let animation = binding
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.animation
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.as_ref()
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.filter(|_| !is_constant)
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.map(|a| super::lower_expression::lower_animation(a, &ctx));
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sub_component.prop_analysis.insert(
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prop.clone(),
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PropAnalysis {
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property_init: Some(sub_component.property_init.len()),
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analysis: get_property_analysis(e, p),
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},
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);
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let is_state_info = matches!(
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e.borrow().lookup_property(p).property_type,
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Type::Struct { name: Some(name), .. } if name.ends_with("::StateInfo")
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);
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sub_component.property_init.push((
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prop.clone(),
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BindingExpression {
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expression,
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animation,
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is_constant,
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is_state_info,
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use_count: 0.into(),
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},
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));
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}
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if e.borrow()
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.property_analysis
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.borrow()
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.get(p)
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.map_or(true, |a| a.is_set || a.is_set_externally)
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{
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if let Some(anim) = binding.animation.as_ref() {
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match super::lower_expression::lower_animation(anim, &ctx) {
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Animation::Static(anim) => {
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sub_component.animations.insert(prop, anim);
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}
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Animation::Transition(_) => {
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// Cannot set a property with a transition anyway
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}
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}
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}
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}
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});
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sub_component.repeated =
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repeated.into_iter().map(|elem| lower_repeated_component(&elem, &ctx)).collect();
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for s in &mut sub_component.sub_components {
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s.repeater_offset += sub_component.repeated.len();
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}
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sub_component.popup_windows = component
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.popup_windows
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.borrow()
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.iter()
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.map(|popup| lower_popup_component(&popup.component, &ctx))
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.collect();
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crate::generator::for_each_const_properties(component, |elem, n| {
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let x = ctx.map_property_reference(&NamedReference::new(elem, n));
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sub_component.const_properties.push(x);
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});
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sub_component.init_code = component
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.setup_code
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.borrow()
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.iter()
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.map(|e| super::lower_expression::lower_expression(e, &ctx).into())
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.collect();
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sub_component.layout_info_h = super::lower_expression::get_layout_info(
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&component.root_element,
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&ctx,
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&component.root_constraints.borrow(),
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crate::layout::Orientation::Horizontal,
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)
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.into();
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sub_component.layout_info_v = super::lower_expression::get_layout_info(
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&component.root_element,
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&ctx,
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&component.root_constraints.borrow(),
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crate::layout::Orientation::Vertical,
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)
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.into();
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sub_component.accessible_prop = accessible_prop
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.into_iter()
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.map(|(idx, key, nr)| {
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let mut expr = super::Expression::PropertyReference(ctx.map_property_reference(&nr));
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match nr.ty() {
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Type::Bool => {
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expr = super::Expression::Condition {
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condition: expr.into(),
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true_expr: super::Expression::StringLiteral("true".into()).into(),
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false_expr: super::Expression::StringLiteral("false".into()).into(),
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};
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}
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Type::Int32 | Type::Float32 => {
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expr = super::Expression::Cast { from: expr.into(), to: Type::String };
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}
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Type::String => {}
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Type::Enumeration(e) if e.name == "AccessibleRole" => {}
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_ => panic!("Invalid type for accessible property"),
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}
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((idx, key), expr.into())
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})
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.collect();
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LoweredSubComponent { sub_component: Rc::new(sub_component), mapping }
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}
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fn get_property_analysis(elem: &ElementRc, p: &str) -> crate::object_tree::PropertyAnalysis {
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let mut a = elem.borrow().property_analysis.borrow().get(p).cloned().unwrap_or_default();
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let mut elem = elem.clone();
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loop {
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let base = elem.borrow().base_type.clone();
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match base {
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ElementType::Native(n) => {
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if n.properties.get(p).map_or(false, |p| p.is_native_output()) {
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a.is_set = true;
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}
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}
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ElementType::Component(c) => {
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elem = c.root_element.clone();
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if let Some(a2) = elem.borrow().property_analysis.borrow().get(p) {
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a.merge_with_base(a2);
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}
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continue;
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}
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_ => (),
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};
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return a;
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}
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}
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fn lower_repeated_component(elem: &ElementRc, ctx: &ExpressionContext) -> RepeatedElement {
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let e = elem.borrow();
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let component = e.base_type.as_component().clone();
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let repeated = e.repeated.as_ref().unwrap();
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let sc = lower_sub_component(&component, ctx.state, Some(ctx));
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let map_inner_prop = |p| {
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sc.mapping
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.map_property_reference(&NamedReference::new(&component.root_element, p), ctx.state)
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};
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let listview = repeated.is_listview.as_ref().map(|lv| ListViewInfo {
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viewport_y: ctx.map_property_reference(&lv.viewport_y),
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viewport_height: ctx.map_property_reference(&lv.viewport_height),
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viewport_width: ctx.map_property_reference(&lv.viewport_width),
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listview_height: ctx.map_property_reference(&lv.listview_height),
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listview_width: ctx.map_property_reference(&lv.listview_width),
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prop_y: map_inner_prop("y"),
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prop_width: map_inner_prop("width"),
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prop_height: map_inner_prop("height"),
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});
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RepeatedElement {
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model: super::lower_expression::lower_expression(&repeated.model, ctx).into(),
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sub_tree: ItemTree {
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tree: make_tree(ctx.state, &component.root_element, &sc, &[]),
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root: Rc::try_unwrap(sc.sub_component).unwrap(),
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parent_context: Some(e.enclosing_component.upgrade().unwrap().id.clone()),
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},
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index_prop: (!repeated.is_conditional_element).then(|| 1),
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data_prop: (!repeated.is_conditional_element).then(|| 0),
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index_in_tree: *e.item_index.get().unwrap(),
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listview,
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}
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}
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fn lower_popup_component(component: &Rc<Component>, ctx: &ExpressionContext) -> ItemTree {
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let sc = lower_sub_component(component, ctx.state, Some(ctx));
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ItemTree {
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tree: make_tree(ctx.state, &component.root_element, &sc, &[]),
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root: Rc::try_unwrap(sc.sub_component).unwrap(),
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parent_context: Some(
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component
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.parent_element
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.upgrade()
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.unwrap()
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.borrow()
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.enclosing_component
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.upgrade()
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.unwrap()
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.id
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.clone(),
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),
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}
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}
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fn lower_global(
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global: &Rc<Component>,
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|
global_index: usize,
|
|
state: &mut LoweringState,
|
|
) -> GlobalComponent {
|
|
let mut mapping = LoweredSubComponentMapping::default();
|
|
let mut properties = vec![];
|
|
let mut const_properties = vec![];
|
|
let mut prop_analysis = vec![];
|
|
|
|
for (p, x) in &global.root_element.borrow().property_declarations {
|
|
let property_index = properties.len();
|
|
let nr = NamedReference::new(&global.root_element, p);
|
|
mapping.property_mapping.insert(
|
|
nr.clone(),
|
|
PropertyReference::Local { sub_component_path: vec![], property_index },
|
|
);
|
|
|
|
properties.push(Property {
|
|
name: p.clone(),
|
|
ty: x.property_type.clone(),
|
|
..Property::default()
|
|
});
|
|
if !matches!(x.property_type, Type::Callback { .. }) {
|
|
const_properties.push(nr.is_constant());
|
|
} else {
|
|
const_properties.push(false);
|
|
}
|
|
prop_analysis.push(
|
|
global
|
|
.root_element
|
|
.borrow()
|
|
.property_analysis
|
|
.borrow()
|
|
.get(p)
|
|
.cloned()
|
|
.unwrap_or_default(),
|
|
);
|
|
state
|
|
.global_properties
|
|
.insert(nr.clone(), PropertyReference::Global { global_index, property_index });
|
|
}
|
|
|
|
let mut init_values = vec![None; properties.len()];
|
|
|
|
let ctx = ExpressionContext { mapping: &mapping, state, parent: None, component: global };
|
|
for (prop, binding) in &global.root_element.borrow().bindings {
|
|
assert!(binding.borrow().two_way_bindings.is_empty());
|
|
assert!(binding.borrow().animation.is_none());
|
|
let expression =
|
|
super::lower_expression::lower_expression(&binding.borrow().expression, &ctx).into();
|
|
|
|
let nr = NamedReference::new(&global.root_element, prop);
|
|
let property_index = match mapping.property_mapping[&nr] {
|
|
PropertyReference::Local { property_index, .. } => property_index,
|
|
_ => unreachable!(),
|
|
};
|
|
let is_constant = binding.borrow().analysis.as_ref().map_or(false, |a| a.is_const);
|
|
init_values[property_index] = Some(BindingExpression {
|
|
expression,
|
|
animation: None,
|
|
is_constant,
|
|
is_state_info: false,
|
|
use_count: 0.into(),
|
|
});
|
|
}
|
|
|
|
let is_builtin = if let Some(builtin) = global.root_element.borrow().native_class() {
|
|
// We just generate the property so we know how to address them
|
|
for (p, x) in &builtin.properties {
|
|
let property_index = properties.len();
|
|
properties.push(Property { name: p.clone(), ty: x.ty.clone(), ..Property::default() });
|
|
let nr = NamedReference::new(&global.root_element, p);
|
|
state
|
|
.global_properties
|
|
.insert(nr, PropertyReference::Global { global_index, property_index });
|
|
prop_analysis.push(
|
|
global
|
|
.root_element
|
|
.borrow()
|
|
.property_analysis
|
|
.borrow()
|
|
.get(p)
|
|
.cloned()
|
|
.unwrap_or_default(),
|
|
);
|
|
}
|
|
true
|
|
} else {
|
|
false
|
|
};
|
|
|
|
let public_properties = public_properties(global, &mapping, state);
|
|
GlobalComponent {
|
|
name: global.root_element.borrow().id.clone(),
|
|
properties,
|
|
init_values,
|
|
const_properties,
|
|
public_properties,
|
|
exported: !global.exported_global_names.borrow().is_empty(),
|
|
aliases: global.global_aliases(),
|
|
is_builtin,
|
|
prop_analysis,
|
|
}
|
|
}
|
|
|
|
fn make_tree(
|
|
state: &LoweringState,
|
|
element: &ElementRc,
|
|
component: &LoweredSubComponent,
|
|
sub_component_path: &[usize],
|
|
) -> TreeNode {
|
|
let e = element.borrow();
|
|
let children = e.children.iter().map(|c| make_tree(state, c, component, sub_component_path));
|
|
match component.mapping.element_mapping.get(&ByAddress(element.clone())).unwrap() {
|
|
LoweredElement::SubComponent { sub_component_index } => {
|
|
let sub_component = e.sub_component().unwrap();
|
|
let new_sub_component_path = sub_component_path
|
|
.iter()
|
|
.copied()
|
|
.chain(std::iter::once(*sub_component_index))
|
|
.collect::<Vec<_>>();
|
|
let mut tree_node = make_tree(
|
|
state,
|
|
&sub_component.root_element,
|
|
state.sub_component(sub_component),
|
|
&new_sub_component_path,
|
|
);
|
|
tree_node.children.extend(children);
|
|
tree_node.is_accessible |= !e.accessibility_props.0.is_empty();
|
|
tree_node
|
|
}
|
|
LoweredElement::NativeItem { item_index } => TreeNode {
|
|
is_accessible: !e.accessibility_props.0.is_empty(),
|
|
sub_component_path: sub_component_path.into(),
|
|
item_index: *item_index,
|
|
children: children.collect(),
|
|
repeated: false,
|
|
},
|
|
LoweredElement::Repeated { repeated_index } => TreeNode {
|
|
is_accessible: false,
|
|
sub_component_path: sub_component_path.into(),
|
|
item_index: *repeated_index,
|
|
children: vec![],
|
|
repeated: true,
|
|
},
|
|
}
|
|
}
|
|
|
|
fn public_properties(
|
|
component: &Component,
|
|
mapping: &LoweredSubComponentMapping,
|
|
state: &LoweringState,
|
|
) -> PublicProperties {
|
|
component
|
|
.root_element
|
|
.borrow()
|
|
.property_declarations
|
|
.iter()
|
|
.filter(|(_, c)| c.expose_in_public_api)
|
|
.map(|(p, c)| {
|
|
let property_reference = mapping
|
|
.map_property_reference(&NamedReference::new(&component.root_element, p), state);
|
|
PublicProperty {
|
|
name: p.clone(),
|
|
ty: c.property_type.clone(),
|
|
prop: property_reference,
|
|
read_only: c.visibility == PropertyVisibility::Output,
|
|
}
|
|
})
|
|
.collect()
|
|
}
|