1use crate::api::{SetPropertyError, Struct, Value};
5use crate::dynamic_item_tree::{CallbackHandler, InstanceRef};
6use core::ffi::c_void;
7use core::pin::Pin;
8use corelib::graphics::{
9 ConicGradientBrush, GradientStop, LinearGradientBrush, PathElement, RadialGradientBrush,
10};
11use corelib::input::FocusReason;
12use corelib::items::{ItemRc, ItemRef, PropertyAnimation, WindowItem};
13use corelib::menus::{Menu, MenuFromItemTree};
14use corelib::model::{Model, ModelExt, ModelRc, VecModel};
15use corelib::rtti::AnimatedBindingKind;
16use corelib::window::WindowInner;
17use corelib::{Brush, Color, PathData, SharedString, SharedVector};
18use i_slint_compiler::expression_tree::{
19 BuiltinFunction, Callable, EasingCurve, Expression, MinMaxOp, Path as ExprPath,
20 PathElement as ExprPathElement,
21};
22use i_slint_compiler::langtype::Type;
23use i_slint_compiler::namedreference::NamedReference;
24use i_slint_compiler::object_tree::ElementRc;
25use i_slint_core::api::ToSharedString;
26use i_slint_core::{self as corelib};
27use smol_str::SmolStr;
28use std::collections::HashMap;
29use std::rc::Rc;
30
31pub trait ErasedPropertyInfo {
32 fn get(&self, item: Pin<ItemRef>) -> Value;
33 fn set(
34 &self,
35 item: Pin<ItemRef>,
36 value: Value,
37 animation: Option<PropertyAnimation>,
38 ) -> Result<(), ()>;
39 fn set_binding(
40 &self,
41 item: Pin<ItemRef>,
42 binding: Box<dyn Fn() -> Value>,
43 animation: AnimatedBindingKind,
44 );
45 fn offset(&self) -> usize;
46
47 #[cfg(slint_debug_property)]
48 fn set_debug_name(&self, item: Pin<ItemRef>, name: String);
49
50 unsafe fn link_two_ways(&self, item: Pin<ItemRef>, property2: *const c_void);
53
54 fn prepare_for_two_way_binding(&self, item: Pin<ItemRef>) -> Pin<Rc<corelib::Property<Value>>>;
55
56 fn link_two_way_with_map(
57 &self,
58 item: Pin<ItemRef>,
59 property2: Pin<Rc<corelib::Property<Value>>>,
60 map: Option<Rc<dyn corelib::rtti::TwoWayBindingMapping<Value>>>,
61 );
62
63 fn link_two_way_to_model_data(
64 &self,
65 item: Pin<ItemRef>,
66 getter: Box<dyn Fn() -> Option<Value>>,
67 setter: Box<dyn Fn(&Value)>,
68 );
69}
70
71impl<Item: vtable::HasStaticVTable<corelib::items::ItemVTable>> ErasedPropertyInfo
72 for &'static dyn corelib::rtti::PropertyInfo<Item, Value>
73{
74 fn get(&self, item: Pin<ItemRef>) -> Value {
75 (*self).get(ItemRef::downcast_pin(item).unwrap()).unwrap()
76 }
77 fn set(
78 &self,
79 item: Pin<ItemRef>,
80 value: Value,
81 animation: Option<PropertyAnimation>,
82 ) -> Result<(), ()> {
83 (*self).set(ItemRef::downcast_pin(item).unwrap(), value, animation)
84 }
85 fn set_binding(
86 &self,
87 item: Pin<ItemRef>,
88 binding: Box<dyn Fn() -> Value>,
89 animation: AnimatedBindingKind,
90 ) {
91 (*self).set_binding(ItemRef::downcast_pin(item).unwrap(), binding, animation).unwrap();
92 }
93 fn offset(&self) -> usize {
94 (*self).offset()
95 }
96 #[cfg(slint_debug_property)]
97 fn set_debug_name(&self, item: Pin<ItemRef>, name: String) {
98 (*self).set_debug_name(ItemRef::downcast_pin(item).unwrap(), name);
99 }
100 unsafe fn link_two_ways(&self, item: Pin<ItemRef>, property2: *const c_void) {
101 unsafe { (*self).link_two_ways(ItemRef::downcast_pin(item).unwrap(), property2) }
103 }
104
105 fn prepare_for_two_way_binding(&self, item: Pin<ItemRef>) -> Pin<Rc<corelib::Property<Value>>> {
106 (*self).prepare_for_two_way_binding(ItemRef::downcast_pin(item).unwrap())
107 }
108
109 fn link_two_way_with_map(
110 &self,
111 item: Pin<ItemRef>,
112 property2: Pin<Rc<corelib::Property<Value>>>,
113 map: Option<Rc<dyn corelib::rtti::TwoWayBindingMapping<Value>>>,
114 ) {
115 (*self).link_two_way_with_map(ItemRef::downcast_pin(item).unwrap(), property2, map)
116 }
117
118 fn link_two_way_to_model_data(
119 &self,
120 item: Pin<ItemRef>,
121 getter: Box<dyn Fn() -> Option<Value>>,
122 setter: Box<dyn Fn(&Value)>,
123 ) {
124 (*self).link_two_way_to_model_data(ItemRef::downcast_pin(item).unwrap(), getter, setter)
125 }
126}
127
128pub trait ErasedCallbackInfo {
129 fn call(&self, item: Pin<ItemRef>, args: &[Value]) -> Value;
130 fn set_handler(&self, item: Pin<ItemRef>, handler: Box<dyn Fn(&[Value]) -> Value>);
131}
132
133impl<Item: vtable::HasStaticVTable<corelib::items::ItemVTable>> ErasedCallbackInfo
134 for &'static dyn corelib::rtti::CallbackInfo<Item, Value>
135{
136 fn call(&self, item: Pin<ItemRef>, args: &[Value]) -> Value {
137 (*self).call(ItemRef::downcast_pin(item).unwrap(), args).unwrap()
138 }
139
140 fn set_handler(&self, item: Pin<ItemRef>, handler: Box<dyn Fn(&[Value]) -> Value>) {
141 (*self).set_handler(ItemRef::downcast_pin(item).unwrap(), handler).unwrap()
142 }
143}
144
145impl corelib::rtti::ValueType for Value {}
146
147#[derive(Clone)]
148pub(crate) enum ComponentInstance<'a, 'id> {
149 InstanceRef(InstanceRef<'a, 'id>),
150 GlobalComponent(Pin<Rc<dyn crate::global_component::GlobalComponent>>),
151}
152
153pub struct EvalLocalContext<'a, 'id> {
155 local_variables: HashMap<SmolStr, Value>,
156 function_arguments: Vec<Value>,
157 pub(crate) component_instance: InstanceRef<'a, 'id>,
158 return_value: Option<Value>,
160}
161
162impl<'a, 'id> EvalLocalContext<'a, 'id> {
163 pub fn from_component_instance(component: InstanceRef<'a, 'id>) -> Self {
164 Self {
165 local_variables: Default::default(),
166 function_arguments: Default::default(),
167 component_instance: component,
168 return_value: None,
169 }
170 }
171
172 pub fn from_function_arguments(
174 component: InstanceRef<'a, 'id>,
175 function_arguments: Vec<Value>,
176 ) -> Self {
177 Self {
178 component_instance: component,
179 function_arguments,
180 local_variables: Default::default(),
181 return_value: None,
182 }
183 }
184}
185
186pub fn eval_expression(expression: &Expression, local_context: &mut EvalLocalContext) -> Value {
188 if let Some(r) = &local_context.return_value {
189 return r.clone();
190 }
191 match expression {
192 Expression::Invalid => panic!("invalid expression while evaluating"),
193 Expression::Uncompiled(_) => panic!("uncompiled expression while evaluating"),
194 Expression::StringLiteral(s) => Value::String(s.as_str().into()),
195 Expression::NumberLiteral(n, unit) => Value::Number(unit.normalize(*n)),
196 Expression::BoolLiteral(b) => Value::Bool(*b),
197 Expression::ElementReference(_) => todo!(
198 "Element references are only supported in the context of built-in function calls at the moment"
199 ),
200 Expression::PropertyReference(nr) => load_property_helper(
201 &ComponentInstance::InstanceRef(local_context.component_instance),
202 &nr.element(),
203 nr.name(),
204 )
205 .unwrap(),
206 Expression::RepeaterIndexReference { element } => load_property_helper(
207 &ComponentInstance::InstanceRef(local_context.component_instance),
208 &element.upgrade().unwrap().borrow().base_type.as_component().root_element,
209 crate::dynamic_item_tree::SPECIAL_PROPERTY_INDEX,
210 )
211 .unwrap(),
212 Expression::RepeaterModelReference { element } => {
213 let value = load_property_helper(
214 &ComponentInstance::InstanceRef(local_context.component_instance),
215 &element.upgrade().unwrap().borrow().base_type.as_component().root_element,
216 crate::dynamic_item_tree::SPECIAL_PROPERTY_MODEL_DATA,
217 )
218 .unwrap();
219 if matches!(value, Value::Void) {
220 default_value_for_type(&expression.ty())
222 } else {
223 value
224 }
225 }
226 Expression::FunctionParameterReference { index, .. } => {
227 local_context.function_arguments[*index].clone()
228 }
229 Expression::StructFieldAccess { base, name } => {
230 if let Value::Struct(o) = eval_expression(base, local_context) {
231 o.get_field(name).cloned().unwrap_or(Value::Void)
232 } else {
233 Value::Void
234 }
235 }
236 Expression::ArrayIndex { array, index } => {
237 let array = eval_expression(array, local_context);
238 let index = eval_expression(index, local_context);
239 match (array, index) {
240 (Value::Model(model), Value::Number(index)) => model
241 .row_data_tracked(index as isize as usize)
242 .unwrap_or_else(|| default_value_for_type(&expression.ty())),
243 _ => Value::Void,
244 }
245 }
246 Expression::Cast { from, to } => {
247 let value = eval_expression(from, local_context);
248 match (value, to) {
249 (Value::Number(n), Type::Int32) => Value::Number(n.trunc()),
250 (Value::Number(n), Type::String) => {
251 Value::String(i_slint_core::string::shared_string_from_number(n))
252 }
253 (Value::Number(n), Type::Color) => Color::from_argb_encoded(n as u32).into(),
254 (Value::Brush(brush), Type::Color) => brush.color().into(),
255 (Value::EnumerationValue(_, val), Type::String) => Value::String(val.into()),
256 (v, _) => v,
257 }
258 }
259 Expression::CodeBlock(sub) => {
260 let mut v = Value::Void;
261 for e in sub {
262 v = eval_expression(e, local_context);
263 if let Some(r) = &local_context.return_value {
264 return r.clone();
265 }
266 }
267 v
268 }
269 Expression::FunctionCall { function, arguments, source_location } => match &function {
270 Callable::Function(nr) => {
271 let is_item_member = nr
272 .element()
273 .borrow()
274 .native_class()
275 .is_some_and(|n| n.properties.contains_key(nr.name()));
276 if is_item_member {
277 call_item_member_function(nr, local_context)
278 } else {
279 let args = arguments
280 .iter()
281 .map(|e| eval_expression(e, local_context))
282 .collect::<Vec<_>>();
283 call_function(
284 &ComponentInstance::InstanceRef(local_context.component_instance),
285 &nr.element(),
286 nr.name(),
287 args,
288 )
289 .unwrap()
290 }
291 }
292 Callable::Callback(nr) => {
293 let args =
294 arguments.iter().map(|e| eval_expression(e, local_context)).collect::<Vec<_>>();
295 invoke_callback(
296 &ComponentInstance::InstanceRef(local_context.component_instance),
297 &nr.element(),
298 nr.name(),
299 &args,
300 )
301 .unwrap()
302 }
303 Callable::Builtin(f) => {
304 call_builtin_function(f.clone(), arguments, local_context, source_location)
305 }
306 },
307 Expression::SelfAssignment { lhs, rhs, op, .. } => {
308 let rhs = eval_expression(rhs, local_context);
309 eval_assignment(lhs, *op, rhs, local_context);
310 Value::Void
311 }
312 Expression::BinaryExpression { lhs, rhs, op } => {
313 let lhs = eval_expression(lhs, local_context);
314 let rhs = eval_expression(rhs, local_context);
315
316 match (op, lhs, rhs) {
317 ('+', Value::String(mut a), Value::String(b)) => {
318 a.push_str(b.as_str());
319 Value::String(a)
320 }
321 ('+', Value::Number(a), Value::Number(b)) => Value::Number(a + b),
322 ('+', a @ Value::Struct(_), b @ Value::Struct(_)) => {
323 let a: Option<corelib::layout::LayoutInfo> = a.try_into().ok();
324 let b: Option<corelib::layout::LayoutInfo> = b.try_into().ok();
325 if let (Some(a), Some(b)) = (a, b) {
326 a.merge(&b).into()
327 } else {
328 panic!("unsupported {a:?} {op} {b:?}");
329 }
330 }
331 ('-', Value::Number(a), Value::Number(b)) => Value::Number(a - b),
332 ('/', Value::Number(a), Value::Number(b)) => Value::Number(a / b),
333 ('*', Value::Number(a), Value::Number(b)) => Value::Number(a * b),
334 ('<', Value::Number(a), Value::Number(b)) => Value::Bool(a < b),
335 ('>', Value::Number(a), Value::Number(b)) => Value::Bool(a > b),
336 ('≤', Value::Number(a), Value::Number(b)) => Value::Bool(a <= b),
337 ('≥', Value::Number(a), Value::Number(b)) => Value::Bool(a >= b),
338 ('<', Value::String(a), Value::String(b)) => Value::Bool(a < b),
339 ('>', Value::String(a), Value::String(b)) => Value::Bool(a > b),
340 ('≤', Value::String(a), Value::String(b)) => Value::Bool(a <= b),
341 ('≥', Value::String(a), Value::String(b)) => Value::Bool(a >= b),
342 ('=', a, b) => Value::Bool(a == b),
343 ('!', a, b) => Value::Bool(a != b),
344 ('&', Value::Bool(a), Value::Bool(b)) => Value::Bool(a && b),
345 ('|', Value::Bool(a), Value::Bool(b)) => Value::Bool(a || b),
346 (op, lhs, rhs) => panic!("unsupported {lhs:?} {op} {rhs:?}"),
347 }
348 }
349 Expression::UnaryOp { sub, op } => {
350 let sub = eval_expression(sub, local_context);
351 match (sub, op) {
352 (Value::Number(a), '+') => Value::Number(a),
353 (Value::Number(a), '-') => Value::Number(-a),
354 (Value::Bool(a), '!') => Value::Bool(!a),
355 (sub, op) => panic!("unsupported {op} {sub:?}"),
356 }
357 }
358 Expression::ImageReference { resource_ref, nine_slice, .. } => {
359 let mut image = match resource_ref {
360 i_slint_compiler::expression_tree::ImageReference::None => Ok(Default::default()),
361 i_slint_compiler::expression_tree::ImageReference::AbsolutePath(path) => {
362 if path.starts_with("data:") {
363 i_slint_compiler::data_uri::decode_data_uri(path)
364 .ok()
365 .and_then(|(data, extension)| {
366 corelib::graphics::load_image_from_dynamic_data(&data, &extension)
367 .ok()
368 })
369 .ok_or_else(Default::default)
370 } else {
371 let path = std::path::Path::new(path);
372 if path.starts_with("builtin:/") {
373 i_slint_compiler::fileaccess::load_file(path)
374 .and_then(|virtual_file| virtual_file.builtin_contents)
375 .map(|virtual_file| {
376 let extension = path.extension().unwrap().to_str().unwrap();
377 corelib::graphics::load_image_from_embedded_data(
378 corelib::slice::Slice::from_slice(virtual_file),
379 corelib::slice::Slice::from_slice(extension.as_bytes()),
380 )
381 })
382 .ok_or_else(Default::default)
383 } else {
384 corelib::graphics::Image::load_from_path(path)
385 }
386 }
387 }
388 i_slint_compiler::expression_tree::ImageReference::EmbeddedData { .. } => {
389 todo!()
390 }
391 i_slint_compiler::expression_tree::ImageReference::EmbeddedTexture { .. } => {
392 todo!()
393 }
394 }
395 .unwrap_or_else(|_| {
396 eprintln!("Could not load image {resource_ref:?}");
397 Default::default()
398 });
399 if let Some(n) = nine_slice {
400 image.set_nine_slice_edges(n[0], n[1], n[2], n[3]);
401 }
402 Value::Image(image)
403 }
404 Expression::Condition { condition, true_expr, false_expr } => {
405 match eval_expression(condition, local_context).try_into() as Result<bool, _> {
406 Ok(true) => eval_expression(true_expr, local_context),
407 Ok(false) => eval_expression(false_expr, local_context),
408 _ => local_context
409 .return_value
410 .clone()
411 .expect("conditional expression did not evaluate to boolean"),
412 }
413 }
414 Expression::Array { values, .. } => {
415 Value::Model(ModelRc::new(corelib::model::SharedVectorModel::from(
416 values
417 .iter()
418 .map(|e| eval_expression(e, local_context))
419 .collect::<SharedVector<_>>(),
420 )))
421 }
422 Expression::Struct { values, .. } => Value::Struct(
423 values
424 .iter()
425 .map(|(k, v)| (k.to_string(), eval_expression(v, local_context)))
426 .collect(),
427 ),
428 Expression::PathData(data) => Value::PathData(convert_path(data, local_context)),
429 Expression::StoreLocalVariable { name, value } => {
430 let value = eval_expression(value, local_context);
431 local_context.local_variables.insert(name.clone(), value);
432 Value::Void
433 }
434 Expression::ReadLocalVariable { name, .. } => {
435 local_context.local_variables.get(name).unwrap().clone()
436 }
437 Expression::EasingCurve(curve) => Value::EasingCurve(match curve {
438 EasingCurve::Linear => corelib::animations::EasingCurve::Linear,
439 EasingCurve::EaseInElastic => corelib::animations::EasingCurve::EaseInElastic,
440 EasingCurve::EaseOutElastic => corelib::animations::EasingCurve::EaseOutElastic,
441 EasingCurve::EaseInOutElastic => corelib::animations::EasingCurve::EaseInOutElastic,
442 EasingCurve::EaseInBounce => corelib::animations::EasingCurve::EaseInBounce,
443 EasingCurve::EaseOutBounce => corelib::animations::EasingCurve::EaseOutBounce,
444 EasingCurve::EaseInOutBounce => corelib::animations::EasingCurve::EaseInOutBounce,
445 EasingCurve::CubicBezier(a, b, c, d) => {
446 corelib::animations::EasingCurve::CubicBezier([*a, *b, *c, *d])
447 }
448 }),
449 Expression::LinearGradient { angle, stops } => {
450 let angle = eval_expression(angle, local_context);
451 Value::Brush(Brush::LinearGradient(LinearGradientBrush::new(
452 angle.try_into().unwrap(),
453 stops.iter().map(|(color, stop)| {
454 let color = eval_expression(color, local_context).try_into().unwrap();
455 let position = eval_expression(stop, local_context).try_into().unwrap();
456 GradientStop { color, position }
457 }),
458 )))
459 }
460 Expression::RadialGradient { stops } => Value::Brush(Brush::RadialGradient(
461 RadialGradientBrush::new_circle(stops.iter().map(|(color, stop)| {
462 let color = eval_expression(color, local_context).try_into().unwrap();
463 let position = eval_expression(stop, local_context).try_into().unwrap();
464 GradientStop { color, position }
465 })),
466 )),
467 Expression::ConicGradient { from_angle, stops } => {
468 let from_angle: f32 = eval_expression(from_angle, local_context).try_into().unwrap();
469 Value::Brush(Brush::ConicGradient(ConicGradientBrush::new(
470 from_angle,
471 stops.iter().map(|(color, stop)| {
472 let color = eval_expression(color, local_context).try_into().unwrap();
473 let position = eval_expression(stop, local_context).try_into().unwrap();
474 GradientStop { color, position }
475 }),
476 )))
477 }
478 Expression::EnumerationValue(value) => {
479 Value::EnumerationValue(value.enumeration.name.to_string(), value.to_string())
480 }
481 Expression::Keys(ks) => {
482 let mut modifiers = i_slint_core::input::KeyboardModifiers::default();
483 modifiers.alt = ks.modifiers.alt;
484 modifiers.control = ks.modifiers.control;
485 modifiers.shift = ks.modifiers.shift;
486 modifiers.meta = ks.modifiers.meta;
487
488 Value::Keys(i_slint_core::input::make_keys(
489 SharedString::from(&*ks.key),
490 modifiers,
491 ks.ignore_shift,
492 ks.ignore_alt,
493 ))
494 }
495 Expression::ReturnStatement(x) => {
496 let val = x.as_ref().map_or(Value::Void, |x| eval_expression(x, local_context));
497 if local_context.return_value.is_none() {
498 local_context.return_value = Some(val);
499 }
500 local_context.return_value.clone().unwrap()
501 }
502 Expression::LayoutCacheAccess {
503 layout_cache_prop,
504 index,
505 repeater_index,
506 entries_per_item,
507 } => {
508 let cache = load_property_helper(
509 &ComponentInstance::InstanceRef(local_context.component_instance),
510 &layout_cache_prop.element(),
511 layout_cache_prop.name(),
512 )
513 .unwrap();
514 if let Value::LayoutCache(cache) = cache {
515 if let Some(ri) = repeater_index {
517 let offset: usize = eval_expression(ri, local_context).try_into().unwrap();
518 Value::Number(
519 cache
520 .get((cache[*index] as usize) + offset * entries_per_item)
521 .copied()
522 .unwrap_or(0.)
523 .into(),
524 )
525 } else {
526 Value::Number(cache[*index].into())
527 }
528 } else if let Value::ArrayOfU16(cache) = cache {
529 if let Some(ri) = repeater_index {
531 let offset: usize = eval_expression(ri, local_context).try_into().unwrap();
532 Value::Number(
533 cache
534 .get((cache[*index] as usize) + offset * entries_per_item)
535 .copied()
536 .unwrap_or(0)
537 .into(),
538 )
539 } else {
540 Value::Number(cache[*index].into())
541 }
542 } else {
543 panic!("invalid layout cache")
544 }
545 }
546 Expression::GridRepeaterCacheAccess {
547 layout_cache_prop,
548 index,
549 repeater_index,
550 stride,
551 child_offset,
552 inner_repeater_index,
553 entries_per_item,
554 } => {
555 let cache = load_property_helper(
556 &ComponentInstance::InstanceRef(local_context.component_instance),
557 &layout_cache_prop.element(),
558 layout_cache_prop.name(),
559 )
560 .unwrap();
561 if let Value::LayoutCache(cache) = cache {
562 let row_idx: usize =
564 eval_expression(repeater_index, local_context).try_into().unwrap();
565 let stride_val: usize = eval_expression(stride, local_context).try_into().unwrap();
566 if let Some(inner_ri) = inner_repeater_index {
567 let inner_offset: usize =
568 eval_expression(inner_ri, local_context).try_into().unwrap();
569 let base = cache[*index] as usize;
570 let data_idx = base
571 + row_idx * stride_val
572 + *child_offset
573 + inner_offset * *entries_per_item;
574 Value::Number(cache.get(data_idx).copied().unwrap_or(0.).into())
575 } else {
576 let base = cache[*index] as usize;
577 let data_idx = base + row_idx * stride_val + *child_offset;
578 Value::Number(cache.get(data_idx).copied().unwrap_or(0.).into())
579 }
580 } else if let Value::ArrayOfU16(cache) = cache {
581 let row_idx: usize =
583 eval_expression(repeater_index, local_context).try_into().unwrap();
584 let stride_val: usize = eval_expression(stride, local_context).try_into().unwrap();
585 if let Some(inner_ri) = inner_repeater_index {
586 let inner_offset: usize =
587 eval_expression(inner_ri, local_context).try_into().unwrap();
588 let base = cache[*index] as usize;
589 let data_idx = base
590 + row_idx * stride_val
591 + *child_offset
592 + inner_offset * *entries_per_item;
593 Value::Number(cache.get(data_idx).copied().unwrap_or(0).into())
594 } else {
595 let base = cache[*index] as usize;
596 let data_idx = base + row_idx * stride_val + *child_offset;
597 Value::Number(cache.get(data_idx).copied().unwrap_or(0).into())
598 }
599 } else {
600 panic!("invalid layout cache")
601 }
602 }
603 Expression::ComputeBoxLayoutInfo(lay, o) => {
604 crate::eval_layout::compute_box_layout_info(lay, *o, local_context)
605 }
606 Expression::ComputeGridLayoutInfo { layout_organized_data_prop, layout, orientation } => {
607 let cache = load_property_helper(
608 &ComponentInstance::InstanceRef(local_context.component_instance),
609 &layout_organized_data_prop.element(),
610 layout_organized_data_prop.name(),
611 )
612 .unwrap();
613 if let Value::ArrayOfU16(organized_data) = cache {
614 crate::eval_layout::compute_grid_layout_info(
615 layout,
616 &organized_data,
617 *orientation,
618 local_context,
619 )
620 } else {
621 panic!("invalid layout organized data cache")
622 }
623 }
624 Expression::OrganizeGridLayout(lay) => {
625 crate::eval_layout::organize_grid_layout(lay, local_context)
626 }
627 Expression::SolveBoxLayout(lay, o) => {
628 crate::eval_layout::solve_box_layout(lay, *o, local_context)
629 }
630 Expression::SolveGridLayout { layout_organized_data_prop, layout, orientation } => {
631 let cache = load_property_helper(
632 &ComponentInstance::InstanceRef(local_context.component_instance),
633 &layout_organized_data_prop.element(),
634 layout_organized_data_prop.name(),
635 )
636 .unwrap();
637 if let Value::ArrayOfU16(organized_data) = cache {
638 crate::eval_layout::solve_grid_layout(
639 &organized_data,
640 layout,
641 *orientation,
642 local_context,
643 )
644 } else {
645 panic!("invalid layout organized data cache")
646 }
647 }
648 Expression::SolveFlexboxLayout(layout) => {
649 crate::eval_layout::solve_flexbox_layout(layout, local_context)
650 }
651 Expression::ComputeFlexboxLayoutInfo(layout, orientation) => {
652 crate::eval_layout::compute_flexbox_layout_info(layout, *orientation, local_context)
653 }
654 Expression::MinMax { ty: _, op, lhs, rhs } => {
655 let Value::Number(lhs) = eval_expression(lhs, local_context) else {
656 return local_context
657 .return_value
658 .clone()
659 .expect("minmax lhs expression did not evaluate to number");
660 };
661 let Value::Number(rhs) = eval_expression(rhs, local_context) else {
662 return local_context
663 .return_value
664 .clone()
665 .expect("minmax rhs expression did not evaluate to number");
666 };
667 match op {
668 MinMaxOp::Min => Value::Number(lhs.min(rhs)),
669 MinMaxOp::Max => Value::Number(lhs.max(rhs)),
670 }
671 }
672 Expression::EmptyComponentFactory => Value::ComponentFactory(Default::default()),
673 Expression::EmptyDataTransfer => Value::DataTransfer(Default::default()),
674 Expression::DebugHook { expression, .. } => eval_expression(expression, local_context),
675 }
676}
677
678fn call_builtin_function(
679 f: BuiltinFunction,
680 arguments: &[Expression],
681 local_context: &mut EvalLocalContext,
682 source_location: &Option<i_slint_compiler::diagnostics::SourceLocation>,
683) -> Value {
684 match f {
685 BuiltinFunction::GetWindowScaleFactor => Value::Number(
686 local_context.component_instance.access_window(|window| window.scale_factor()) as _,
687 ),
688 BuiltinFunction::GetWindowDefaultFontSize => Value::Number({
689 let component = local_context.component_instance;
690 let item_comp = component.self_weak().get().unwrap().upgrade().unwrap();
691 WindowItem::resolved_default_font_size(vtable::VRc::into_dyn(item_comp)).get() as _
692 }),
693 BuiltinFunction::AnimationTick => {
694 Value::Number(i_slint_core::animations::animation_tick() as f64)
695 }
696 BuiltinFunction::Debug => {
697 let to_print: SharedString =
698 eval_expression(&arguments[0], local_context).try_into().unwrap();
699 local_context.component_instance.description.debug_handler.borrow()(
700 source_location.as_ref(),
701 &to_print,
702 );
703 Value::Void
704 }
705 BuiltinFunction::DecimalSeparator => Value::String(
706 local_context
707 .component_instance
708 .access_window(|window| window.context().locale_decimal_separator())
709 .into(),
710 ),
711 BuiltinFunction::Mod => {
712 let mut to_num = |e| -> f64 { eval_expression(e, local_context).try_into().unwrap() };
713 Value::Number(to_num(&arguments[0]).rem_euclid(to_num(&arguments[1])))
714 }
715 BuiltinFunction::Round => {
716 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
717 Value::Number(x.round())
718 }
719 BuiltinFunction::Ceil => {
720 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
721 Value::Number(x.ceil())
722 }
723 BuiltinFunction::Floor => {
724 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
725 Value::Number(x.floor())
726 }
727 BuiltinFunction::Sqrt => {
728 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
729 Value::Number(x.sqrt())
730 }
731 BuiltinFunction::Abs => {
732 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
733 Value::Number(x.abs())
734 }
735 BuiltinFunction::Sin => {
736 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
737 Value::Number(x.to_radians().sin())
738 }
739 BuiltinFunction::Cos => {
740 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
741 Value::Number(x.to_radians().cos())
742 }
743 BuiltinFunction::Tan => {
744 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
745 Value::Number(x.to_radians().tan())
746 }
747 BuiltinFunction::ASin => {
748 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
749 Value::Number(x.asin().to_degrees())
750 }
751 BuiltinFunction::ACos => {
752 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
753 Value::Number(x.acos().to_degrees())
754 }
755 BuiltinFunction::ATan => {
756 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
757 Value::Number(x.atan().to_degrees())
758 }
759 BuiltinFunction::ATan2 => {
760 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
761 let y: f64 = eval_expression(&arguments[1], local_context).try_into().unwrap();
762 Value::Number(x.atan2(y).to_degrees())
763 }
764 BuiltinFunction::Log => {
765 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
766 let y: f64 = eval_expression(&arguments[1], local_context).try_into().unwrap();
767 Value::Number(x.log(y))
768 }
769 BuiltinFunction::Ln => {
770 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
771 Value::Number(x.ln())
772 }
773 BuiltinFunction::Pow => {
774 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
775 let y: f64 = eval_expression(&arguments[1], local_context).try_into().unwrap();
776 Value::Number(x.powf(y))
777 }
778 BuiltinFunction::Exp => {
779 let x: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
780 Value::Number(x.exp())
781 }
782 BuiltinFunction::ToFixed => {
783 let n: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
784 let digits: i32 = eval_expression(&arguments[1], local_context).try_into().unwrap();
785 let digits: usize = digits.max(0) as usize;
786 Value::String(i_slint_core::string::shared_string_from_number_fixed(n, digits))
787 }
788 BuiltinFunction::ToPrecision => {
789 let n: f64 = eval_expression(&arguments[0], local_context).try_into().unwrap();
790 let precision: i32 = eval_expression(&arguments[1], local_context).try_into().unwrap();
791 let precision: usize = precision.max(0) as usize;
792 Value::String(i_slint_core::string::shared_string_from_number_precision(n, precision))
793 }
794 BuiltinFunction::SetFocusItem => {
795 if arguments.len() != 1 {
796 panic!("internal error: incorrect argument count to SetFocusItem")
797 }
798 let component = local_context.component_instance;
799 if let Expression::ElementReference(focus_item) = &arguments[0] {
800 generativity::make_guard!(guard);
801
802 let focus_item = focus_item.upgrade().unwrap();
803 let enclosing_component =
804 enclosing_component_for_element(&focus_item, component, guard);
805 let description = enclosing_component.description;
806
807 let item_info = &description.items[focus_item.borrow().id.as_str()];
808
809 let focus_item_comp =
810 enclosing_component.self_weak().get().unwrap().upgrade().unwrap();
811
812 component.access_window(|window| {
813 window.set_focus_item(
814 &corelib::items::ItemRc::new(
815 vtable::VRc::into_dyn(focus_item_comp),
816 item_info.item_index(),
817 ),
818 true,
819 FocusReason::Programmatic,
820 )
821 });
822 Value::Void
823 } else {
824 panic!("internal error: argument to SetFocusItem must be an element")
825 }
826 }
827 BuiltinFunction::ClearFocusItem => {
828 if arguments.len() != 1 {
829 panic!("internal error: incorrect argument count to SetFocusItem")
830 }
831 let component = local_context.component_instance;
832 if let Expression::ElementReference(focus_item) = &arguments[0] {
833 generativity::make_guard!(guard);
834
835 let focus_item = focus_item.upgrade().unwrap();
836 let enclosing_component =
837 enclosing_component_for_element(&focus_item, component, guard);
838 let description = enclosing_component.description;
839
840 let item_info = &description.items[focus_item.borrow().id.as_str()];
841
842 let focus_item_comp =
843 enclosing_component.self_weak().get().unwrap().upgrade().unwrap();
844
845 component.access_window(|window| {
846 window.set_focus_item(
847 &corelib::items::ItemRc::new(
848 vtable::VRc::into_dyn(focus_item_comp),
849 item_info.item_index(),
850 ),
851 false,
852 FocusReason::Programmatic,
853 )
854 });
855 Value::Void
856 } else {
857 panic!("internal error: argument to ClearFocusItem must be an element")
858 }
859 }
860 BuiltinFunction::ShowPopupWindow => {
861 if arguments.len() != 1 {
862 panic!("internal error: incorrect argument count to ShowPopupWindow")
863 }
864 let component = local_context.component_instance;
865 if let Expression::ElementReference(popup_window) = &arguments[0] {
866 let popup_window = popup_window.upgrade().unwrap();
867 let pop_comp = popup_window.borrow().enclosing_component.upgrade().unwrap();
868 let parent_component = {
869 let parent_elem = pop_comp.parent_element().unwrap();
870 parent_elem.borrow().enclosing_component.upgrade().unwrap()
871 };
872 let popup_list = parent_component.popup_windows.borrow();
873 let popup =
874 popup_list.iter().find(|p| Rc::ptr_eq(&p.component, &pop_comp)).unwrap();
875
876 generativity::make_guard!(guard);
877 let enclosing_component =
878 enclosing_component_for_element(&popup.parent_element, component, guard);
879 let parent_item_info = &enclosing_component.description.items
880 [popup.parent_element.borrow().id.as_str()];
881 let parent_item_comp =
882 enclosing_component.self_weak().get().unwrap().upgrade().unwrap();
883 let parent_item = corelib::items::ItemRc::new(
884 vtable::VRc::into_dyn(parent_item_comp),
885 parent_item_info.item_index(),
886 );
887
888 let close_policy = Value::EnumerationValue(
889 popup.close_policy.enumeration.name.to_string(),
890 popup.close_policy.to_string(),
891 )
892 .try_into()
893 .expect("Invalid internal enumeration representation for close policy");
894 let popup_x = popup.x.clone();
895 let popup_y = popup.y.clone();
896
897 crate::dynamic_item_tree::show_popup(
898 popup_window,
899 enclosing_component,
900 popup,
901 move |instance_ref| {
902 let comp = ComponentInstance::InstanceRef(instance_ref);
903 let x = load_property_helper(&comp, &popup_x.element(), popup_x.name())
904 .unwrap();
905 let y = load_property_helper(&comp, &popup_y.element(), popup_y.name())
906 .unwrap();
907 corelib::api::LogicalPosition::new(
908 x.try_into().unwrap(),
909 y.try_into().unwrap(),
910 )
911 },
912 close_policy,
913 (*enclosing_component.self_weak().get().unwrap()).clone(),
914 component.window_adapter(),
915 &parent_item,
916 );
917 Value::Void
918 } else {
919 panic!("internal error: argument to ShowPopupWindow must be an element")
920 }
921 }
922 BuiltinFunction::ClosePopupWindow => {
923 let component = local_context.component_instance;
924 if let Expression::ElementReference(popup_window) = &arguments[0] {
925 let popup_window = popup_window.upgrade().unwrap();
926 let pop_comp = popup_window.borrow().enclosing_component.upgrade().unwrap();
927 let parent_component = {
928 let parent_elem = pop_comp.parent_element().unwrap();
929 parent_elem.borrow().enclosing_component.upgrade().unwrap()
930 };
931 let popup_list = parent_component.popup_windows.borrow();
932 let popup =
933 popup_list.iter().find(|p| Rc::ptr_eq(&p.component, &pop_comp)).unwrap();
934
935 generativity::make_guard!(guard);
936 let enclosing_component =
937 enclosing_component_for_element(&popup.parent_element, component, guard);
938 crate::dynamic_item_tree::close_popup(
939 popup_window,
940 enclosing_component,
941 enclosing_component.window_adapter(),
942 );
943
944 Value::Void
945 } else {
946 panic!("internal error: argument to ClosePopupWindow must be an element")
947 }
948 }
949 BuiltinFunction::ShowPopupMenu | BuiltinFunction::ShowPopupMenuInternal => {
950 let [Expression::ElementReference(element), entries, position] = arguments else {
951 panic!("internal error: incorrect argument count to ShowPopupMenu")
952 };
953 let position = eval_expression(position, local_context)
954 .try_into()
955 .expect("internal error: popup menu position argument should be a point");
956
957 let component = local_context.component_instance;
958 let elem = element.upgrade().unwrap();
959 generativity::make_guard!(guard);
960 let enclosing_component = enclosing_component_for_element(&elem, component, guard);
961 let description = enclosing_component.description;
962 let item_info = &description.items[elem.borrow().id.as_str()];
963 let item_comp = enclosing_component.self_weak().get().unwrap().upgrade().unwrap();
964 let item_tree = vtable::VRc::into_dyn(item_comp);
965 let item_rc = corelib::items::ItemRc::new(item_tree.clone(), item_info.item_index());
966
967 generativity::make_guard!(guard);
968 let compiled = enclosing_component.description.popup_menu_description.unerase(guard);
969 let extra_data = enclosing_component
970 .description
971 .extra_data_offset
972 .apply(enclosing_component.as_ref());
973 let inst = crate::dynamic_item_tree::instantiate(
974 compiled.clone(),
975 Some((*enclosing_component.self_weak().get().unwrap()).clone()),
976 None,
977 Some(&crate::dynamic_item_tree::WindowOptions::UseExistingWindow(
978 component.window_adapter(),
979 )),
980 extra_data.globals.get().unwrap().clone(),
981 );
982
983 generativity::make_guard!(guard);
984 let inst_ref = inst.unerase(guard);
985 if let Expression::ElementReference(e) = entries {
986 let menu_item_tree =
987 e.upgrade().unwrap().borrow().enclosing_component.upgrade().unwrap();
988 let menu_item_tree = crate::dynamic_item_tree::make_menu_item_tree(
989 &menu_item_tree,
990 &enclosing_component,
991 None,
992 );
993
994 if component.access_window(|window| {
995 window.show_native_popup_menu(
996 vtable::VRc::into_dyn(menu_item_tree.clone()),
997 position,
998 &item_rc,
999 )
1000 }) {
1001 return Value::Void;
1002 }
1003
1004 let (entries, sub_menu, activated) = menu_item_tree_properties(menu_item_tree);
1005
1006 compiled.set_binding(inst_ref.borrow(), "entries", entries).unwrap();
1007 compiled.set_callback_handler(inst_ref.borrow(), "sub-menu", sub_menu).unwrap();
1008 compiled.set_callback_handler(inst_ref.borrow(), "activated", activated).unwrap();
1009 } else {
1010 let entries = eval_expression(entries, local_context);
1011 compiled.set_property(inst_ref.borrow(), "entries", entries).unwrap();
1012 let item_weak = item_rc.downgrade();
1013 compiled
1014 .set_callback_handler(
1015 inst_ref.borrow(),
1016 "sub-menu",
1017 Box::new(move |args: &[Value]| -> Value {
1018 item_weak
1019 .upgrade()
1020 .unwrap()
1021 .downcast::<corelib::items::ContextMenu>()
1022 .unwrap()
1023 .sub_menu
1024 .call(&(args[0].clone().try_into().unwrap(),))
1025 .into()
1026 }),
1027 )
1028 .unwrap();
1029 let item_weak = item_rc.downgrade();
1030 compiled
1031 .set_callback_handler(
1032 inst_ref.borrow(),
1033 "activated",
1034 Box::new(move |args: &[Value]| -> Value {
1035 item_weak
1036 .upgrade()
1037 .unwrap()
1038 .downcast::<corelib::items::ContextMenu>()
1039 .unwrap()
1040 .activated
1041 .call(&(args[0].clone().try_into().unwrap(),));
1042 Value::Void
1043 }),
1044 )
1045 .unwrap();
1046 }
1047 let item_weak = item_rc.downgrade();
1048 compiled
1049 .set_callback_handler(
1050 inst_ref.borrow(),
1051 "close-popup",
1052 Box::new(move |_args: &[Value]| -> Value {
1053 let Some(item_rc) = item_weak.upgrade() else { return Value::Void };
1054 if let Some(id) = item_rc
1055 .downcast::<corelib::items::ContextMenu>()
1056 .unwrap()
1057 .popup_id
1058 .take()
1059 {
1060 WindowInner::from_pub(item_rc.window_adapter().unwrap().window())
1061 .close_popup(id);
1062 }
1063 Value::Void
1064 }),
1065 )
1066 .unwrap();
1067 component.access_window(|window| {
1068 let context_menu_elem = item_rc.downcast::<corelib::items::ContextMenu>().unwrap();
1069 if let Some(old_id) = context_menu_elem.popup_id.take() {
1070 window.close_popup(old_id)
1071 }
1072 let id = window.show_popup(
1073 &vtable::VRc::into_dyn(inst.clone()),
1074 Box::new(move || position),
1075 corelib::items::PopupClosePolicy::CloseOnClickOutside,
1076 &item_rc,
1077 false,
1078 true,
1079 );
1080 context_menu_elem.popup_id.set(Some(id));
1081 });
1082 inst.run_setup_code();
1083 Value::Void
1084 }
1085 BuiltinFunction::SetSelectionOffsets => {
1086 if arguments.len() != 3 {
1087 panic!("internal error: incorrect argument count to select range function call")
1088 }
1089 let component = local_context.component_instance;
1090 if let Expression::ElementReference(element) = &arguments[0] {
1091 generativity::make_guard!(guard);
1092
1093 let elem = element.upgrade().unwrap();
1094 let enclosing_component = enclosing_component_for_element(&elem, component, guard);
1095 let description = enclosing_component.description;
1096 let item_info = &description.items[elem.borrow().id.as_str()];
1097 let item_ref =
1098 unsafe { item_info.item_from_item_tree(enclosing_component.as_ptr()) };
1099
1100 let item_comp = enclosing_component.self_weak().get().unwrap().upgrade().unwrap();
1101 let item_rc = corelib::items::ItemRc::new(
1102 vtable::VRc::into_dyn(item_comp),
1103 item_info.item_index(),
1104 );
1105
1106 let window_adapter = component.window_adapter();
1107
1108 if let Some(textinput) =
1110 ItemRef::downcast_pin::<corelib::items::TextInput>(item_ref)
1111 {
1112 let start: i32 =
1113 eval_expression(&arguments[1], local_context).try_into().expect(
1114 "internal error: second argument to set-selection-offsets must be an integer",
1115 );
1116 let end: i32 = eval_expression(&arguments[2], local_context).try_into().expect(
1117 "internal error: third argument to set-selection-offsets must be an integer",
1118 );
1119
1120 textinput.set_selection_offsets(&window_adapter, &item_rc, start, end);
1121 } else {
1122 panic!(
1123 "internal error: member function called on element that doesn't have it: {}",
1124 elem.borrow().original_name()
1125 )
1126 }
1127
1128 Value::Void
1129 } else {
1130 panic!("internal error: first argument to set-selection-offsets must be an element")
1131 }
1132 }
1133 BuiltinFunction::ItemFontMetrics => {
1134 if arguments.len() != 1 {
1135 panic!(
1136 "internal error: incorrect argument count to item font metrics function call"
1137 )
1138 }
1139 let component = local_context.component_instance;
1140 if let Expression::ElementReference(element) = &arguments[0] {
1141 generativity::make_guard!(guard);
1142
1143 let elem = element.upgrade().unwrap();
1144 let enclosing_component = enclosing_component_for_element(&elem, component, guard);
1145 let description = enclosing_component.description;
1146 let item_info = &description.items[elem.borrow().id.as_str()];
1147 let item_ref =
1148 unsafe { item_info.item_from_item_tree(enclosing_component.as_ptr()) };
1149 let item_comp = enclosing_component.self_weak().get().unwrap().upgrade().unwrap();
1150 let item_rc = corelib::items::ItemRc::new(
1151 vtable::VRc::into_dyn(item_comp),
1152 item_info.item_index(),
1153 );
1154 let window_adapter = component.window_adapter();
1155 let metrics = i_slint_core::items::slint_text_item_fontmetrics(
1156 &window_adapter,
1157 item_ref,
1158 &item_rc,
1159 );
1160 metrics.into()
1161 } else {
1162 panic!("internal error: argument to item-font-metrics must be an element")
1163 }
1164 }
1165 BuiltinFunction::StringIsFloat => {
1166 if arguments.len() != 1 {
1167 panic!("internal error: incorrect argument count to StringIsFloat")
1168 }
1169 if let Value::String(s) = eval_expression(&arguments[0], local_context) {
1170 Value::Bool(<f64 as core::str::FromStr>::from_str(s.as_str()).is_ok())
1171 } else {
1172 panic!("Argument not a string");
1173 }
1174 }
1175 BuiltinFunction::StringToFloat => {
1176 if arguments.len() != 1 {
1177 panic!("internal error: incorrect argument count to StringToFloat")
1178 }
1179 if let Value::String(s) = eval_expression(&arguments[0], local_context) {
1180 Value::Number(core::str::FromStr::from_str(s.as_str()).unwrap_or(0.))
1181 } else {
1182 panic!("Argument not a string");
1183 }
1184 }
1185 BuiltinFunction::StringIsEmpty => {
1186 if arguments.len() != 1 {
1187 panic!("internal error: incorrect argument count to StringIsEmpty")
1188 }
1189 if let Value::String(s) = eval_expression(&arguments[0], local_context) {
1190 Value::Bool(s.is_empty())
1191 } else {
1192 panic!("Argument not a string");
1193 }
1194 }
1195 BuiltinFunction::StringCharacterCount => {
1196 if arguments.len() != 1 {
1197 panic!("internal error: incorrect argument count to StringCharacterCount")
1198 }
1199 if let Value::String(s) = eval_expression(&arguments[0], local_context) {
1200 Value::Number(
1201 unicode_segmentation::UnicodeSegmentation::graphemes(s.as_str(), true).count()
1202 as f64,
1203 )
1204 } else {
1205 panic!("Argument not a string");
1206 }
1207 }
1208 BuiltinFunction::StringToLowercase => {
1209 if arguments.len() != 1 {
1210 panic!("internal error: incorrect argument count to StringToLowercase")
1211 }
1212 if let Value::String(s) = eval_expression(&arguments[0], local_context) {
1213 Value::String(s.to_lowercase().into())
1214 } else {
1215 panic!("Argument not a string");
1216 }
1217 }
1218 BuiltinFunction::StringToUppercase => {
1219 if arguments.len() != 1 {
1220 panic!("internal error: incorrect argument count to StringToUppercase")
1221 }
1222 if let Value::String(s) = eval_expression(&arguments[0], local_context) {
1223 Value::String(s.to_uppercase().into())
1224 } else {
1225 panic!("Argument not a string");
1226 }
1227 }
1228 BuiltinFunction::KeysToString => {
1229 if arguments.len() != 1 {
1230 panic!("internal error: incorrect argument count to KeysToString")
1231 }
1232 let Value::Keys(keys) = eval_expression(&arguments[0], local_context) else {
1233 panic!("Argument is not of type keys");
1234 };
1235 Value::String(ToSharedString::to_shared_string(&keys))
1236 }
1237 BuiltinFunction::ColorRgbaStruct => {
1238 if arguments.len() != 1 {
1239 panic!("internal error: incorrect argument count to ColorRGBAComponents")
1240 }
1241 if let Value::Brush(brush) = eval_expression(&arguments[0], local_context) {
1242 let color = brush.color();
1243 let values = IntoIterator::into_iter([
1244 ("red".to_string(), Value::Number(color.red().into())),
1245 ("green".to_string(), Value::Number(color.green().into())),
1246 ("blue".to_string(), Value::Number(color.blue().into())),
1247 ("alpha".to_string(), Value::Number(color.alpha().into())),
1248 ])
1249 .collect();
1250 Value::Struct(values)
1251 } else {
1252 panic!("First argument not a color");
1253 }
1254 }
1255 BuiltinFunction::ColorHsvaStruct => {
1256 if arguments.len() != 1 {
1257 panic!("internal error: incorrect argument count to ColorHSVAComponents")
1258 }
1259 if let Value::Brush(brush) = eval_expression(&arguments[0], local_context) {
1260 let color = brush.color().to_hsva();
1261 let values = IntoIterator::into_iter([
1262 ("hue".to_string(), Value::Number(color.hue.into())),
1263 ("saturation".to_string(), Value::Number(color.saturation.into())),
1264 ("value".to_string(), Value::Number(color.value.into())),
1265 ("alpha".to_string(), Value::Number(color.alpha.into())),
1266 ])
1267 .collect();
1268 Value::Struct(values)
1269 } else {
1270 panic!("First argument not a color");
1271 }
1272 }
1273 BuiltinFunction::ColorOklchStruct => {
1274 if arguments.len() != 1 {
1275 panic!("internal error: incorrect argument count to ColorOklchStruct")
1276 }
1277 if let Value::Brush(brush) = eval_expression(&arguments[0], local_context) {
1278 let color = brush.color().to_oklch();
1279 let values = IntoIterator::into_iter([
1280 ("lightness".to_string(), Value::Number(color.lightness.into())),
1281 ("chroma".to_string(), Value::Number(color.chroma.into())),
1282 ("hue".to_string(), Value::Number(color.hue.into())),
1283 ("alpha".to_string(), Value::Number(color.alpha.into())),
1284 ])
1285 .collect();
1286 Value::Struct(values)
1287 } else {
1288 panic!("First argument not a color");
1289 }
1290 }
1291 BuiltinFunction::ColorBrighter => {
1292 if arguments.len() != 2 {
1293 panic!("internal error: incorrect argument count to ColorBrighter")
1294 }
1295 if let Value::Brush(brush) = eval_expression(&arguments[0], local_context) {
1296 if let Value::Number(factor) = eval_expression(&arguments[1], local_context) {
1297 brush.brighter(factor as _).into()
1298 } else {
1299 panic!("Second argument not a number");
1300 }
1301 } else {
1302 panic!("First argument not a color");
1303 }
1304 }
1305 BuiltinFunction::ColorDarker => {
1306 if arguments.len() != 2 {
1307 panic!("internal error: incorrect argument count to ColorDarker")
1308 }
1309 if let Value::Brush(brush) = eval_expression(&arguments[0], local_context) {
1310 if let Value::Number(factor) = eval_expression(&arguments[1], local_context) {
1311 brush.darker(factor as _).into()
1312 } else {
1313 panic!("Second argument not a number");
1314 }
1315 } else {
1316 panic!("First argument not a color");
1317 }
1318 }
1319 BuiltinFunction::ColorTransparentize => {
1320 if arguments.len() != 2 {
1321 panic!("internal error: incorrect argument count to ColorFaded")
1322 }
1323 if let Value::Brush(brush) = eval_expression(&arguments[0], local_context) {
1324 if let Value::Number(factor) = eval_expression(&arguments[1], local_context) {
1325 brush.transparentize(factor as _).into()
1326 } else {
1327 panic!("Second argument not a number");
1328 }
1329 } else {
1330 panic!("First argument not a color");
1331 }
1332 }
1333 BuiltinFunction::ColorMix => {
1334 if arguments.len() != 3 {
1335 panic!("internal error: incorrect argument count to ColorMix")
1336 }
1337
1338 let arg0 = eval_expression(&arguments[0], local_context);
1339 let arg1 = eval_expression(&arguments[1], local_context);
1340 let arg2 = eval_expression(&arguments[2], local_context);
1341
1342 if !matches!(arg0, Value::Brush(Brush::SolidColor(_))) {
1343 panic!("First argument not a color");
1344 }
1345 if !matches!(arg1, Value::Brush(Brush::SolidColor(_))) {
1346 panic!("Second argument not a color");
1347 }
1348 if !matches!(arg2, Value::Number(_)) {
1349 panic!("Third argument not a number");
1350 }
1351
1352 let (
1353 Value::Brush(Brush::SolidColor(color_a)),
1354 Value::Brush(Brush::SolidColor(color_b)),
1355 Value::Number(factor),
1356 ) = (arg0, arg1, arg2)
1357 else {
1358 unreachable!()
1359 };
1360
1361 color_a.mix(&color_b, factor as _).into()
1362 }
1363 BuiltinFunction::ColorWithAlpha => {
1364 if arguments.len() != 2 {
1365 panic!("internal error: incorrect argument count to ColorWithAlpha")
1366 }
1367 if let Value::Brush(brush) = eval_expression(&arguments[0], local_context) {
1368 if let Value::Number(factor) = eval_expression(&arguments[1], local_context) {
1369 brush.with_alpha(factor as _).into()
1370 } else {
1371 panic!("Second argument not a number");
1372 }
1373 } else {
1374 panic!("First argument not a color");
1375 }
1376 }
1377 BuiltinFunction::ImageSize => {
1378 if arguments.len() != 1 {
1379 panic!("internal error: incorrect argument count to ImageSize")
1380 }
1381 if let Value::Image(img) = eval_expression(&arguments[0], local_context) {
1382 let size = img.size();
1383 let values = IntoIterator::into_iter([
1384 ("width".to_string(), Value::Number(size.width as f64)),
1385 ("height".to_string(), Value::Number(size.height as f64)),
1386 ])
1387 .collect();
1388 Value::Struct(values)
1389 } else {
1390 panic!("First argument not an image");
1391 }
1392 }
1393 BuiltinFunction::ArrayLength => {
1394 if arguments.len() != 1 {
1395 panic!("internal error: incorrect argument count to ArrayLength")
1396 }
1397 match eval_expression(&arguments[0], local_context) {
1398 Value::Model(model) => {
1399 model.model_tracker().track_row_count_changes();
1400 Value::Number(model.row_count() as f64)
1401 }
1402 _ => {
1403 panic!("First argument not an array: {:?}", arguments[0]);
1404 }
1405 }
1406 }
1407 BuiltinFunction::Rgb => {
1408 let r: i32 = eval_expression(&arguments[0], local_context).try_into().unwrap();
1409 let g: i32 = eval_expression(&arguments[1], local_context).try_into().unwrap();
1410 let b: i32 = eval_expression(&arguments[2], local_context).try_into().unwrap();
1411 let a: f32 = eval_expression(&arguments[3], local_context).try_into().unwrap();
1412 let r: u8 = r.clamp(0, 255) as u8;
1413 let g: u8 = g.clamp(0, 255) as u8;
1414 let b: u8 = b.clamp(0, 255) as u8;
1415 let a: u8 = (255. * a).clamp(0., 255.) as u8;
1416 Value::Brush(Brush::SolidColor(Color::from_argb_u8(a, r, g, b)))
1417 }
1418 BuiltinFunction::Hsv => {
1419 let h: f32 = eval_expression(&arguments[0], local_context).try_into().unwrap();
1420 let s: f32 = eval_expression(&arguments[1], local_context).try_into().unwrap();
1421 let v: f32 = eval_expression(&arguments[2], local_context).try_into().unwrap();
1422 let a: f32 = eval_expression(&arguments[3], local_context).try_into().unwrap();
1423 let a = (1. * a).clamp(0., 1.);
1424 Value::Brush(Brush::SolidColor(Color::from_hsva(h, s, v, a)))
1425 }
1426 BuiltinFunction::Oklch => {
1427 let l: f32 = eval_expression(&arguments[0], local_context).try_into().unwrap();
1428 let c: f32 = eval_expression(&arguments[1], local_context).try_into().unwrap();
1429 let h: f32 = eval_expression(&arguments[2], local_context).try_into().unwrap();
1430 let a: f32 = eval_expression(&arguments[3], local_context).try_into().unwrap();
1431 let l = l.clamp(0., 1.);
1432 let c = c.max(0.);
1433 let a = a.clamp(0., 1.);
1434 Value::Brush(Brush::SolidColor(Color::from_oklch(l, c, h, a)))
1435 }
1436 BuiltinFunction::ColorScheme => {
1437 let root_weak =
1438 vtable::VWeak::into_dyn(local_context.component_instance.root_weak().clone());
1439 let root = root_weak.upgrade().unwrap();
1440 corelib::window::context_for_root(&root)
1441 .map_or(corelib::items::ColorScheme::Unknown, |ctx| ctx.color_scheme(Some(&root)))
1442 .into()
1443 }
1444 BuiltinFunction::AccentColor => {
1445 let root_weak =
1446 vtable::VWeak::into_dyn(local_context.component_instance.root_weak().clone());
1447 let root = root_weak.upgrade().unwrap();
1448 Value::Brush(corelib::Brush::SolidColor(corelib::window::accent_color(&root)))
1449 }
1450 BuiltinFunction::SupportsNativeMenuBar => local_context
1451 .component_instance
1452 .window_adapter()
1453 .internal(corelib::InternalToken)
1454 .is_some_and(|x| x.supports_native_menu_bar())
1455 .into(),
1456 BuiltinFunction::SetupMenuBar => {
1457 let component = local_context.component_instance;
1458 let [
1459 Expression::PropertyReference(entries_nr),
1460 Expression::PropertyReference(sub_menu_nr),
1461 Expression::PropertyReference(activated_nr),
1462 Expression::ElementReference(item_tree_root),
1463 Expression::BoolLiteral(no_native),
1464 rest @ ..,
1465 ] = arguments
1466 else {
1467 panic!("internal error: incorrect argument count to SetupMenuBar")
1468 };
1469
1470 let menu_item_tree =
1471 item_tree_root.upgrade().unwrap().borrow().enclosing_component.upgrade().unwrap();
1472 let menu_item_tree = crate::dynamic_item_tree::make_menu_item_tree(
1473 &menu_item_tree,
1474 &component,
1475 rest.first(),
1476 );
1477
1478 let window_adapter = component.window_adapter();
1479 let window_inner = WindowInner::from_pub(window_adapter.window());
1480 let menubar = vtable::VRc::into_dyn(vtable::VRc::clone(&menu_item_tree));
1481 window_inner.setup_menubar_shortcuts(vtable::VRc::clone(&menubar));
1482
1483 if !no_native && window_inner.supports_native_menu_bar() {
1484 window_inner.setup_menubar(menubar);
1485 return Value::Void;
1486 }
1487
1488 let (entries, sub_menu, activated) = menu_item_tree_properties(menu_item_tree);
1489
1490 assert_eq!(
1491 entries_nr.element().borrow().id,
1492 component.description.original.root_element.borrow().id,
1493 "entries need to be in the main element"
1494 );
1495 local_context
1496 .component_instance
1497 .description
1498 .set_binding(component.borrow(), entries_nr.name(), entries)
1499 .unwrap();
1500 let i = &ComponentInstance::InstanceRef(local_context.component_instance);
1501 set_callback_handler(i, &sub_menu_nr.element(), sub_menu_nr.name(), sub_menu).unwrap();
1502 set_callback_handler(i, &activated_nr.element(), activated_nr.name(), activated)
1503 .unwrap();
1504
1505 Value::Void
1506 }
1507 BuiltinFunction::SetupSystemTrayIcon => {
1508 let [
1509 Expression::ElementReference(system_tray_elem),
1510 Expression::ElementReference(item_tree_root),
1511 rest @ ..,
1512 ] = arguments
1513 else {
1514 panic!("internal error: incorrect argument count to SetupSystemTrayIcon")
1515 };
1516
1517 let component = local_context.component_instance;
1518 let elem = system_tray_elem.upgrade().unwrap();
1519 generativity::make_guard!(guard);
1520 let enclosing_component = enclosing_component_for_element(&elem, component, guard);
1521 let description = enclosing_component.description;
1522 let item_info = &description.items[elem.borrow().id.as_str()];
1523 let item_comp = enclosing_component.self_weak().get().unwrap().upgrade().unwrap();
1524 let item_tree = vtable::VRc::into_dyn(item_comp);
1525 let item_rc = corelib::items::ItemRc::new(item_tree.clone(), item_info.item_index());
1526
1527 let menu_item_tree_component =
1528 item_tree_root.upgrade().unwrap().borrow().enclosing_component.upgrade().unwrap();
1529 let menu_vrc = crate::dynamic_item_tree::make_menu_item_tree(
1530 &menu_item_tree_component,
1531 &enclosing_component,
1532 rest.first(),
1533 );
1534
1535 let system_tray =
1536 item_rc.downcast::<corelib::items::SystemTrayIcon>().expect("SystemTrayIcon item");
1537 system_tray.as_pin_ref().set_menu(&item_rc, vtable::VRc::into_dyn(menu_vrc));
1538
1539 Value::Void
1540 }
1541 BuiltinFunction::MonthDayCount => {
1542 let m: u32 = eval_expression(&arguments[0], local_context).try_into().unwrap();
1543 let y: i32 = eval_expression(&arguments[1], local_context).try_into().unwrap();
1544 Value::Number(i_slint_core::date_time::month_day_count(m, y).unwrap_or(0) as f64)
1545 }
1546 BuiltinFunction::MonthOffset => {
1547 let m: u32 = eval_expression(&arguments[0], local_context).try_into().unwrap();
1548 let y: i32 = eval_expression(&arguments[1], local_context).try_into().unwrap();
1549
1550 Value::Number(i_slint_core::date_time::month_offset(m, y) as f64)
1551 }
1552 BuiltinFunction::FormatDate => {
1553 let f: SharedString = eval_expression(&arguments[0], local_context).try_into().unwrap();
1554 let d: u32 = eval_expression(&arguments[1], local_context).try_into().unwrap();
1555 let m: u32 = eval_expression(&arguments[2], local_context).try_into().unwrap();
1556 let y: i32 = eval_expression(&arguments[3], local_context).try_into().unwrap();
1557
1558 Value::String(i_slint_core::date_time::format_date(&f, d, m, y))
1559 }
1560 BuiltinFunction::DateNow => Value::Model(ModelRc::new(VecModel::from(
1561 i_slint_core::date_time::date_now()
1562 .into_iter()
1563 .map(|x| Value::Number(x as f64))
1564 .collect::<Vec<_>>(),
1565 ))),
1566 BuiltinFunction::ValidDate => {
1567 let d: SharedString = eval_expression(&arguments[0], local_context).try_into().unwrap();
1568 let f: SharedString = eval_expression(&arguments[1], local_context).try_into().unwrap();
1569 Value::Bool(i_slint_core::date_time::parse_date(d.as_str(), f.as_str()).is_some())
1570 }
1571 BuiltinFunction::ParseDate => {
1572 let d: SharedString = eval_expression(&arguments[0], local_context).try_into().unwrap();
1573 let f: SharedString = eval_expression(&arguments[1], local_context).try_into().unwrap();
1574
1575 Value::Model(ModelRc::new(
1576 i_slint_core::date_time::parse_date(d.as_str(), f.as_str())
1577 .map(|x| {
1578 VecModel::from(
1579 x.into_iter().map(|x| Value::Number(x as f64)).collect::<Vec<_>>(),
1580 )
1581 })
1582 .unwrap_or_default(),
1583 ))
1584 }
1585 BuiltinFunction::TextInputFocused => Value::Bool(
1586 local_context.component_instance.access_window(|window| window.text_input_focused())
1587 as _,
1588 ),
1589 BuiltinFunction::SetTextInputFocused => {
1590 local_context.component_instance.access_window(|window| {
1591 window.set_text_input_focused(
1592 eval_expression(&arguments[0], local_context).try_into().unwrap(),
1593 )
1594 });
1595 Value::Void
1596 }
1597 BuiltinFunction::ImplicitLayoutInfo(orient) => {
1598 let component = local_context.component_instance;
1599 if let [Expression::ElementReference(item), constraint_expr] = arguments {
1600 generativity::make_guard!(guard);
1601
1602 let constraint: f32 =
1603 eval_expression(constraint_expr, local_context).try_into().unwrap_or(-1.);
1604
1605 let item = item.upgrade().unwrap();
1606 let enclosing_component = enclosing_component_for_element(&item, component, guard);
1607 let description = enclosing_component.description;
1608 let item_info = &description.items[item.borrow().id.as_str()];
1609 let item_ref =
1610 unsafe { item_info.item_from_item_tree(enclosing_component.as_ptr()) };
1611 let item_comp = enclosing_component.self_weak().get().unwrap().upgrade().unwrap();
1612 let window_adapter = component.window_adapter();
1613 item_ref
1614 .as_ref()
1615 .layout_info(
1616 crate::eval_layout::to_runtime(orient),
1617 constraint,
1618 &window_adapter,
1619 &ItemRc::new(vtable::VRc::into_dyn(item_comp), item_info.item_index()),
1620 )
1621 .into()
1622 } else {
1623 panic!("internal error: incorrect arguments to ImplicitLayoutInfo {arguments:?}");
1624 }
1625 }
1626 BuiltinFunction::ItemAbsolutePosition => {
1627 if arguments.len() != 1 {
1628 panic!("internal error: incorrect argument count to ItemAbsolutePosition")
1629 }
1630
1631 let component = local_context.component_instance;
1632
1633 if let Expression::ElementReference(item) = &arguments[0] {
1634 generativity::make_guard!(guard);
1635
1636 let item = item.upgrade().unwrap();
1637 let enclosing_component = enclosing_component_for_element(&item, component, guard);
1638 let description = enclosing_component.description;
1639
1640 let item_info = &description.items[item.borrow().id.as_str()];
1641
1642 let item_comp = enclosing_component.self_weak().get().unwrap().upgrade().unwrap();
1643
1644 let item_rc = corelib::items::ItemRc::new(
1645 vtable::VRc::into_dyn(item_comp),
1646 item_info.item_index(),
1647 );
1648
1649 item_rc.map_to_window(Default::default()).to_untyped().into()
1650 } else {
1651 panic!("internal error: argument to SetFocusItem must be an element")
1652 }
1653 }
1654 BuiltinFunction::RegisterCustomFontByPath => {
1655 if arguments.len() != 1 {
1656 panic!("internal error: incorrect argument count to RegisterCustomFontByPath")
1657 }
1658 let component = local_context.component_instance;
1659 if let Value::String(s) = eval_expression(&arguments[0], local_context) {
1660 if let Some(err) = component
1661 .window_adapter()
1662 .renderer()
1663 .register_font_from_path(&std::path::PathBuf::from(s.as_str()))
1664 .err()
1665 {
1666 corelib::debug_log!("Error loading custom font {}: {}", s.as_str(), err);
1667 }
1668 Value::Void
1669 } else {
1670 panic!("Argument not a string");
1671 }
1672 }
1673 BuiltinFunction::RegisterCustomFontByMemory | BuiltinFunction::RegisterBitmapFont => {
1674 unimplemented!()
1675 }
1676 BuiltinFunction::Translate => {
1677 let original: SharedString =
1678 eval_expression(&arguments[0], local_context).try_into().unwrap();
1679 let context: SharedString =
1680 eval_expression(&arguments[1], local_context).try_into().unwrap();
1681 let domain: SharedString =
1682 eval_expression(&arguments[2], local_context).try_into().unwrap();
1683 let args = eval_expression(&arguments[3], local_context);
1684 let Value::Model(args) = args else { panic!("Args to translate not a model {args:?}") };
1685 struct StringModelWrapper(ModelRc<Value>);
1686 impl corelib::translations::FormatArgs for StringModelWrapper {
1687 type Output<'a> = SharedString;
1688 fn from_index(&self, index: usize) -> Option<SharedString> {
1689 self.0.row_data(index).map(|x| x.try_into().unwrap())
1690 }
1691 }
1692 Value::String(corelib::translations::translate(
1693 &original,
1694 &context,
1695 &domain,
1696 &StringModelWrapper(args),
1697 eval_expression(&arguments[4], local_context).try_into().unwrap(),
1698 &SharedString::try_from(eval_expression(&arguments[5], local_context)).unwrap(),
1699 ))
1700 }
1701 BuiltinFunction::Use24HourFormat => Value::Bool(corelib::date_time::use_24_hour_format()),
1702 BuiltinFunction::UpdateTimers => {
1703 crate::dynamic_item_tree::update_timers(local_context.component_instance);
1704 Value::Void
1705 }
1706 BuiltinFunction::DetectOperatingSystem => i_slint_core::detect_operating_system().into(),
1707 BuiltinFunction::StartTimer => unreachable!(),
1709 BuiltinFunction::StopTimer => unreachable!(),
1710 BuiltinFunction::RestartTimer => {
1711 if let [Expression::ElementReference(timer_element)] = arguments {
1712 crate::dynamic_item_tree::restart_timer(
1713 timer_element.clone(),
1714 local_context.component_instance,
1715 );
1716
1717 Value::Void
1718 } else {
1719 panic!("internal error: argument to RestartTimer must be an element")
1720 }
1721 }
1722 BuiltinFunction::OpenUrl => {
1723 let url: SharedString =
1724 eval_expression(&arguments[0], local_context).try_into().unwrap();
1725 let window_adapter = local_context.component_instance.window_adapter();
1726 Value::Bool(corelib::open_url(&url, window_adapter.window()).is_ok())
1727 }
1728 BuiltinFunction::BringAllToFront => {
1729 corelib::bring_all_to_front();
1730 Value::Void
1731 }
1732 BuiltinFunction::ParseMarkdown => {
1733 let format_string: SharedString =
1734 eval_expression(&arguments[0], local_context).try_into().unwrap();
1735 let args: ModelRc<corelib::styled_text::StyledText> =
1736 eval_expression(&arguments[1], local_context).try_into().unwrap();
1737 Value::StyledText(corelib::styled_text::parse_markdown(
1738 &format_string,
1739 &args.iter().collect::<Vec<_>>(),
1740 ))
1741 }
1742 BuiltinFunction::StringToStyledText => {
1743 let string: SharedString =
1744 eval_expression(&arguments[0], local_context).try_into().unwrap();
1745 Value::StyledText(corelib::styled_text::string_to_styled_text(string.to_string()))
1746 }
1747 BuiltinFunction::ColorToStyledText => {
1748 let color: corelib::Color =
1749 eval_expression(&arguments[0], local_context).try_into().unwrap();
1750 Value::StyledText(corelib::styled_text::color_to_styled_text(color))
1751 }
1752 }
1753}
1754
1755fn call_item_member_function(nr: &NamedReference, local_context: &mut EvalLocalContext) -> Value {
1756 let component = local_context.component_instance;
1757 let elem = nr.element();
1758 let name = nr.name().as_str();
1759 generativity::make_guard!(guard);
1760 let enclosing_component = enclosing_component_for_element(&elem, component, guard);
1761 let description = enclosing_component.description;
1762 let item_info = &description.items[elem.borrow().id.as_str()];
1763 let item_ref = unsafe { item_info.item_from_item_tree(enclosing_component.as_ptr()) };
1764
1765 let item_comp = enclosing_component.self_weak().get().unwrap().upgrade().unwrap();
1766 let item_rc =
1767 corelib::items::ItemRc::new(vtable::VRc::into_dyn(item_comp), item_info.item_index());
1768
1769 let window_adapter = component.window_adapter();
1770
1771 if let Some(textinput) = ItemRef::downcast_pin::<corelib::items::TextInput>(item_ref) {
1773 match name {
1774 "select-all" => textinput.select_all(&window_adapter, &item_rc),
1775 "clear-selection" => textinput.clear_selection(&window_adapter, &item_rc),
1776 "cut" => textinput.cut(&window_adapter, &item_rc),
1777 "copy" => textinput.copy(&window_adapter, &item_rc),
1778 "paste" => textinput.paste(&window_adapter, &item_rc),
1779 _ => panic!("internal: Unknown member function {name} called on TextInput"),
1780 }
1781 } else if let Some(s) = ItemRef::downcast_pin::<corelib::items::SwipeGestureHandler>(item_ref) {
1782 match name {
1783 "cancel" => s.cancel(&window_adapter, &item_rc),
1784 _ => panic!("internal: Unknown member function {name} called on SwipeGestureHandler"),
1785 }
1786 } else if let Some(s) = ItemRef::downcast_pin::<corelib::items::ContextMenu>(item_ref) {
1787 match name {
1788 "close" => s.close(&window_adapter, &item_rc),
1789 "is-open" => return Value::Bool(s.is_open(&window_adapter, &item_rc)),
1790 _ => {
1791 panic!("internal: Unknown member function {name} called on ContextMenu")
1792 }
1793 }
1794 } else if let Some(s) = ItemRef::downcast_pin::<corelib::items::WindowItem>(item_ref) {
1795 match name {
1796 "hide" => s.hide(&window_adapter, &item_rc),
1797 "close" => return Value::Bool(s.close(&window_adapter, &item_rc)),
1798 _ => {
1799 panic!("internal: Unknown member function {name} called on WindowItem")
1800 }
1801 }
1802 } else {
1803 panic!(
1804 "internal error: member function {name} called on element that doesn't have it: {}",
1805 elem.borrow().original_name()
1806 )
1807 }
1808
1809 Value::Void
1810}
1811
1812fn eval_assignment(lhs: &Expression, op: char, rhs: Value, local_context: &mut EvalLocalContext) {
1813 let eval = |lhs| match (lhs, &rhs, op) {
1814 (Value::String(ref mut a), Value::String(b), '+') => {
1815 a.push_str(b.as_str());
1816 Value::String(a.clone())
1817 }
1818 (Value::Number(a), Value::Number(b), '+') => Value::Number(a + b),
1819 (Value::Number(a), Value::Number(b), '-') => Value::Number(a - b),
1820 (Value::Number(a), Value::Number(b), '/') => Value::Number(a / b),
1821 (Value::Number(a), Value::Number(b), '*') => Value::Number(a * b),
1822 (lhs, rhs, op) => panic!("unsupported {lhs:?} {op} {rhs:?}"),
1823 };
1824 match lhs {
1825 Expression::PropertyReference(nr) => {
1826 let element = nr.element();
1827 generativity::make_guard!(guard);
1828 let enclosing_component = enclosing_component_instance_for_element(
1829 &element,
1830 &ComponentInstance::InstanceRef(local_context.component_instance),
1831 guard,
1832 );
1833
1834 match enclosing_component {
1835 ComponentInstance::InstanceRef(enclosing_component) => {
1836 if op == '=' {
1837 store_property(enclosing_component, &element, nr.name(), rhs).unwrap();
1838 return;
1839 }
1840
1841 let component = element.borrow().enclosing_component.upgrade().unwrap();
1842 if element.borrow().id == component.root_element.borrow().id
1843 && let Some(x) =
1844 enclosing_component.description.custom_properties.get(nr.name())
1845 {
1846 unsafe {
1847 let p =
1848 Pin::new_unchecked(&*enclosing_component.as_ptr().add(x.offset));
1849 x.prop.set(p, eval(x.prop.get(p).unwrap()), None).unwrap();
1850 }
1851 return;
1852 }
1853 let item_info =
1854 &enclosing_component.description.items[element.borrow().id.as_str()];
1855 let item =
1856 unsafe { item_info.item_from_item_tree(enclosing_component.as_ptr()) };
1857 let p = &item_info.rtti.properties[nr.name().as_str()];
1858 p.set(item, eval(p.get(item)), None).unwrap();
1859 }
1860 ComponentInstance::GlobalComponent(global) => {
1861 let val = if op == '=' {
1862 rhs
1863 } else {
1864 eval(global.as_ref().get_property(nr.name()).unwrap())
1865 };
1866 global.as_ref().set_property(nr.name(), val).unwrap();
1867 }
1868 }
1869 }
1870 Expression::StructFieldAccess { base, name } => {
1871 if let Value::Struct(mut o) = eval_expression(base, local_context) {
1872 let mut r = o.get_field(name).unwrap().clone();
1873 r = if op == '=' { rhs } else { eval(std::mem::take(&mut r)) };
1874 o.set_field(name.to_string(), r);
1875 eval_assignment(base, '=', Value::Struct(o), local_context)
1876 }
1877 }
1878 Expression::RepeaterModelReference { element } => {
1879 let element = element.upgrade().unwrap();
1880 let component_instance = local_context.component_instance;
1881 generativity::make_guard!(g1);
1882 let enclosing_component =
1883 enclosing_component_for_element(&element, component_instance, g1);
1884 let static_guard =
1887 unsafe { generativity::Guard::new(generativity::Id::<'static>::new()) };
1888 let repeater = crate::dynamic_item_tree::get_repeater_by_name(
1889 enclosing_component,
1890 element.borrow().id.as_str(),
1891 static_guard,
1892 );
1893 repeater.0.model_set_row_data(
1894 eval_expression(
1895 &Expression::RepeaterIndexReference { element: Rc::downgrade(&element) },
1896 local_context,
1897 )
1898 .try_into()
1899 .unwrap(),
1900 if op == '=' {
1901 rhs
1902 } else {
1903 eval(eval_expression(
1904 &Expression::RepeaterModelReference { element: Rc::downgrade(&element) },
1905 local_context,
1906 ))
1907 },
1908 )
1909 }
1910 Expression::ArrayIndex { array, index } => {
1911 let array = eval_expression(array, local_context);
1912 let index = eval_expression(index, local_context);
1913 match (array, index) {
1914 (Value::Model(model), Value::Number(index)) => {
1915 if index >= 0. && (index as usize) < model.row_count() {
1916 let index = index as usize;
1917 if op == '=' {
1918 model.set_row_data(index, rhs);
1919 } else {
1920 model.set_row_data(
1921 index,
1922 eval(
1923 model
1924 .row_data(index)
1925 .unwrap_or_else(|| default_value_for_type(&lhs.ty())),
1926 ),
1927 );
1928 }
1929 }
1930 }
1931 _ => {
1932 eprintln!("Attempting to write into an array that cannot be written");
1933 }
1934 }
1935 }
1936 _ => panic!("typechecking should make sure this was a PropertyReference"),
1937 }
1938}
1939
1940pub fn load_property(component: InstanceRef, element: &ElementRc, name: &str) -> Result<Value, ()> {
1941 load_property_helper(&ComponentInstance::InstanceRef(component), element, name)
1942}
1943
1944fn load_property_helper(
1945 component_instance: &ComponentInstance,
1946 element: &ElementRc,
1947 name: &str,
1948) -> Result<Value, ()> {
1949 generativity::make_guard!(guard);
1950 match enclosing_component_instance_for_element(element, component_instance, guard) {
1951 ComponentInstance::InstanceRef(enclosing_component) => {
1952 let element = element.borrow();
1953 if element.id == element.enclosing_component.upgrade().unwrap().root_element.borrow().id
1954 {
1955 if let Some(x) = enclosing_component.description.custom_properties.get(name) {
1956 return unsafe {
1957 x.prop.get(Pin::new_unchecked(&*enclosing_component.as_ptr().add(x.offset)))
1958 };
1959 } else if enclosing_component.description.original.is_global() {
1960 return Err(());
1961 }
1962 };
1963 let item_info = enclosing_component
1964 .description
1965 .items
1966 .get(element.id.as_str())
1967 .unwrap_or_else(|| panic!("Unknown element for {}.{}", element.id, name));
1968 core::mem::drop(element);
1969 let item = unsafe { item_info.item_from_item_tree(enclosing_component.as_ptr()) };
1970 Ok(item_info.rtti.properties.get(name).ok_or(())?.get(item))
1971 }
1972 ComponentInstance::GlobalComponent(glob) => glob.as_ref().get_property(name),
1973 }
1974}
1975
1976pub fn store_property(
1977 component_instance: InstanceRef,
1978 element: &ElementRc,
1979 name: &str,
1980 mut value: Value,
1981) -> Result<(), SetPropertyError> {
1982 generativity::make_guard!(guard);
1983 match enclosing_component_instance_for_element(
1984 element,
1985 &ComponentInstance::InstanceRef(component_instance),
1986 guard,
1987 ) {
1988 ComponentInstance::InstanceRef(enclosing_component) => {
1989 let maybe_animation = match element.borrow().bindings.get(name) {
1990 Some(b) => crate::dynamic_item_tree::animation_for_property(
1991 enclosing_component,
1992 &b.borrow().animation,
1993 ),
1994 None => {
1995 crate::dynamic_item_tree::animation_for_property(enclosing_component, &None)
1996 }
1997 };
1998
1999 let component = element.borrow().enclosing_component.upgrade().unwrap();
2000 if element.borrow().id == component.root_element.borrow().id {
2001 if let Some(x) = enclosing_component.description.custom_properties.get(name) {
2002 if let Some(orig_decl) = enclosing_component
2003 .description
2004 .original
2005 .root_element
2006 .borrow()
2007 .property_declarations
2008 .get(name)
2009 {
2010 if !check_value_type(&mut value, &orig_decl.property_type) {
2012 return Err(SetPropertyError::WrongType);
2013 }
2014 }
2015 unsafe {
2016 let p = Pin::new_unchecked(&*enclosing_component.as_ptr().add(x.offset));
2017 return x
2018 .prop
2019 .set(p, value, maybe_animation.as_animation())
2020 .map_err(|()| SetPropertyError::WrongType);
2021 }
2022 } else if enclosing_component.description.original.is_global() {
2023 return Err(SetPropertyError::NoSuchProperty);
2024 }
2025 };
2026 let item_info = &enclosing_component.description.items[element.borrow().id.as_str()];
2027 let item = unsafe { item_info.item_from_item_tree(enclosing_component.as_ptr()) };
2028 let p = &item_info.rtti.properties.get(name).ok_or(SetPropertyError::NoSuchProperty)?;
2029 p.set(item, value, maybe_animation.as_animation())
2030 .map_err(|()| SetPropertyError::WrongType)?;
2031 }
2032 ComponentInstance::GlobalComponent(glob) => {
2033 glob.as_ref().set_property(name, value)?;
2034 }
2035 }
2036 Ok(())
2037}
2038
2039fn check_value_type(value: &mut Value, ty: &Type) -> bool {
2041 match ty {
2042 Type::Void => true,
2043 Type::Invalid
2044 | Type::InferredProperty
2045 | Type::InferredCallback
2046 | Type::Callback { .. }
2047 | Type::Function { .. }
2048 | Type::ElementReference => panic!("not valid property type"),
2049 Type::Float32 => matches!(value, Value::Number(_)),
2050 Type::Int32 => matches!(value, Value::Number(_)),
2051 Type::String => matches!(value, Value::String(_)),
2052 Type::Color => matches!(value, Value::Brush(_)),
2053 Type::UnitProduct(_)
2054 | Type::Duration
2055 | Type::PhysicalLength
2056 | Type::LogicalLength
2057 | Type::Rem
2058 | Type::Angle
2059 | Type::Percent => matches!(value, Value::Number(_)),
2060 Type::Image => matches!(value, Value::Image(_)),
2061 Type::Bool => matches!(value, Value::Bool(_)),
2062 Type::Model => {
2063 matches!(value, Value::Model(_) | Value::Bool(_) | Value::Number(_))
2064 }
2065 Type::PathData => matches!(value, Value::PathData(_)),
2066 Type::Easing => matches!(value, Value::EasingCurve(_)),
2067 Type::Brush => matches!(value, Value::Brush(_)),
2068 Type::Array(inner) => {
2069 matches!(value, Value::Model(m) if m.iter().all(|mut v| check_value_type(&mut v, inner)))
2070 }
2071 Type::Struct(s) => {
2072 let Value::Struct(str) = value else { return false };
2073 if !str
2074 .0
2075 .iter_mut()
2076 .all(|(k, v)| s.fields.get(k).is_some_and(|ty| check_value_type(v, ty)))
2077 {
2078 return false;
2079 }
2080 for (k, v) in &s.fields {
2081 str.0.entry(k.clone()).or_insert_with(|| default_value_for_type(v));
2082 }
2083 true
2084 }
2085 Type::Enumeration(en) => {
2086 matches!(value, Value::EnumerationValue(name, _) if name == en.name.as_str())
2087 }
2088 Type::Keys => matches!(value, Value::Keys(_)),
2089 Type::LayoutCache => matches!(value, Value::LayoutCache(_)),
2090 Type::ArrayOfU16 => matches!(value, Value::ArrayOfU16(_)),
2091 Type::ComponentFactory => matches!(value, Value::ComponentFactory(_)),
2092 Type::StyledText => matches!(value, Value::StyledText(_)),
2093 Type::DataTransfer => matches!(value, Value::DataTransfer(_)),
2094 }
2095}
2096
2097pub(crate) fn invoke_callback(
2098 component_instance: &ComponentInstance,
2099 element: &ElementRc,
2100 callback_name: &SmolStr,
2101 args: &[Value],
2102) -> Option<Value> {
2103 generativity::make_guard!(guard);
2104 match enclosing_component_instance_for_element(element, component_instance, guard) {
2105 ComponentInstance::InstanceRef(enclosing_component) => {
2106 let description = enclosing_component.description;
2107 let element = element.borrow();
2108 if element.id == element.enclosing_component.upgrade().unwrap().root_element.borrow().id
2109 {
2110 if let Some(callback_offset) = description.custom_callbacks.get(callback_name) {
2111 let callback = callback_offset.apply(&*enclosing_component.instance);
2112 let res = callback.call(args);
2113 return Some(if res != Value::Void {
2114 res
2115 } else if let Some(Type::Callback(callback)) = description
2116 .original
2117 .root_element
2118 .borrow()
2119 .property_declarations
2120 .get(callback_name)
2121 .map(|d| &d.property_type)
2122 {
2123 default_value_for_type(&callback.return_type)
2127 } else {
2128 res
2129 });
2130 } else if enclosing_component.description.original.is_global() {
2131 return None;
2132 }
2133 };
2134 let item_info = &description.items[element.id.as_str()];
2135 let item = unsafe { item_info.item_from_item_tree(enclosing_component.as_ptr()) };
2136 item_info
2137 .rtti
2138 .callbacks
2139 .get(callback_name.as_str())
2140 .map(|callback| callback.call(item, args))
2141 }
2142 ComponentInstance::GlobalComponent(global) => {
2143 Some(global.as_ref().invoke_callback(callback_name, args).unwrap())
2144 }
2145 }
2146}
2147
2148pub(crate) fn set_callback_handler(
2149 component_instance: &ComponentInstance,
2150 element: &ElementRc,
2151 callback_name: &str,
2152 handler: CallbackHandler,
2153) -> Result<(), ()> {
2154 generativity::make_guard!(guard);
2155 match enclosing_component_instance_for_element(element, component_instance, guard) {
2156 ComponentInstance::InstanceRef(enclosing_component) => {
2157 let description = enclosing_component.description;
2158 let element = element.borrow();
2159 if element.id == element.enclosing_component.upgrade().unwrap().root_element.borrow().id
2160 {
2161 if let Some(callback_offset) = description.custom_callbacks.get(callback_name) {
2162 let callback = callback_offset.apply(&*enclosing_component.instance);
2163 callback.set_handler(handler);
2164 return Ok(());
2165 } else if enclosing_component.description.original.is_global() {
2166 return Err(());
2167 }
2168 };
2169 let item_info = &description.items[element.id.as_str()];
2170 let item = unsafe { item_info.item_from_item_tree(enclosing_component.as_ptr()) };
2171 if let Some(callback) = item_info.rtti.callbacks.get(callback_name) {
2172 callback.set_handler(item, handler);
2173 Ok(())
2174 } else {
2175 Err(())
2176 }
2177 }
2178 ComponentInstance::GlobalComponent(global) => {
2179 global.as_ref().set_callback_handler(callback_name, handler)
2180 }
2181 }
2182}
2183
2184pub(crate) fn call_function(
2188 component_instance: &ComponentInstance,
2189 element: &ElementRc,
2190 function_name: &str,
2191 args: Vec<Value>,
2192) -> Option<Value> {
2193 generativity::make_guard!(guard);
2194 match enclosing_component_instance_for_element(element, component_instance, guard) {
2195 ComponentInstance::InstanceRef(c) => {
2196 let mut ctx = EvalLocalContext::from_function_arguments(c, args);
2197 eval_expression(
2198 &element.borrow().bindings.get(function_name)?.borrow().expression,
2199 &mut ctx,
2200 )
2201 .into()
2202 }
2203 ComponentInstance::GlobalComponent(g) => g.as_ref().eval_function(function_name, args).ok(),
2204 }
2205}
2206
2207pub fn enclosing_component_for_element<'a, 'old_id, 'new_id>(
2210 element: &'a ElementRc,
2211 component: InstanceRef<'a, 'old_id>,
2212 _guard: generativity::Guard<'new_id>,
2213) -> InstanceRef<'a, 'new_id> {
2214 let enclosing = &element.borrow().enclosing_component.upgrade().unwrap();
2215 if Rc::ptr_eq(enclosing, &component.description.original) {
2216 unsafe {
2218 std::mem::transmute::<InstanceRef<'a, 'old_id>, InstanceRef<'a, 'new_id>>(component)
2219 }
2220 } else {
2221 assert!(!enclosing.is_global());
2222 let static_guard = unsafe { generativity::Guard::new(generativity::Id::<'static>::new()) };
2226
2227 let parent_instance = component
2228 .parent_instance(static_guard)
2229 .expect("accessing deleted parent (issue #6426)");
2230 enclosing_component_for_element(element, parent_instance, _guard)
2231 }
2232}
2233
2234pub(crate) fn enclosing_component_instance_for_element<'a, 'new_id>(
2237 element: &'a ElementRc,
2238 component_instance: &ComponentInstance<'a, '_>,
2239 guard: generativity::Guard<'new_id>,
2240) -> ComponentInstance<'a, 'new_id> {
2241 let enclosing = &element.borrow().enclosing_component.upgrade().unwrap();
2242 match component_instance {
2243 ComponentInstance::InstanceRef(component) => {
2244 if enclosing.is_global() && !Rc::ptr_eq(enclosing, &component.description.original) {
2245 ComponentInstance::GlobalComponent(
2246 component
2247 .description
2248 .extra_data_offset
2249 .apply(component.instance.get_ref())
2250 .globals
2251 .get()
2252 .unwrap()
2253 .get(enclosing.root_element.borrow().id.as_str())
2254 .unwrap(),
2255 )
2256 } else {
2257 ComponentInstance::InstanceRef(enclosing_component_for_element(
2258 element, *component, guard,
2259 ))
2260 }
2261 }
2262 ComponentInstance::GlobalComponent(global) => {
2263 ComponentInstance::GlobalComponent(global.clone())
2265 }
2266 }
2267}
2268
2269pub fn new_struct_with_bindings<ElementType: 'static + Default + corelib::rtti::BuiltinItem>(
2270 bindings: &i_slint_compiler::object_tree::BindingsMap,
2271 local_context: &mut EvalLocalContext,
2272) -> ElementType {
2273 let mut element = ElementType::default();
2274 for (prop, info) in ElementType::fields::<Value>().into_iter() {
2275 if let Some(binding) = &bindings.get(prop) {
2276 let value = eval_expression(&binding.borrow(), local_context);
2277 info.set_field(&mut element, value).unwrap();
2278 }
2279 }
2280 element
2281}
2282
2283fn convert_from_lyon_path<'a>(
2284 events_it: impl IntoIterator<Item = &'a i_slint_compiler::expression_tree::Expression>,
2285 points_it: impl IntoIterator<Item = &'a i_slint_compiler::expression_tree::Expression>,
2286 local_context: &mut EvalLocalContext,
2287) -> PathData {
2288 let events = events_it
2289 .into_iter()
2290 .map(|event_expr| eval_expression(event_expr, local_context).try_into().unwrap())
2291 .collect::<SharedVector<_>>();
2292
2293 let points = points_it
2294 .into_iter()
2295 .map(|point_expr| {
2296 let point_value = eval_expression(point_expr, local_context);
2297 let point_struct: Struct = point_value.try_into().unwrap();
2298 let mut point = i_slint_core::graphics::Point::default();
2299 let x: f64 = point_struct.get_field("x").unwrap().clone().try_into().unwrap();
2300 let y: f64 = point_struct.get_field("y").unwrap().clone().try_into().unwrap();
2301 point.x = x as _;
2302 point.y = y as _;
2303 point
2304 })
2305 .collect::<SharedVector<_>>();
2306
2307 PathData::Events(events, points)
2308}
2309
2310pub fn convert_path(path: &ExprPath, local_context: &mut EvalLocalContext) -> PathData {
2311 match path {
2312 ExprPath::Elements(elements) => PathData::Elements(
2313 elements
2314 .iter()
2315 .map(|element| convert_path_element(element, local_context))
2316 .collect::<SharedVector<PathElement>>(),
2317 ),
2318 ExprPath::Events(events, points) => {
2319 convert_from_lyon_path(events.iter(), points.iter(), local_context)
2320 }
2321 ExprPath::Commands(commands) => {
2322 if let Value::String(commands) = eval_expression(commands, local_context) {
2323 PathData::Commands(commands)
2324 } else {
2325 panic!("binding to path commands does not evaluate to string");
2326 }
2327 }
2328 }
2329}
2330
2331fn convert_path_element(
2332 expr_element: &ExprPathElement,
2333 local_context: &mut EvalLocalContext,
2334) -> PathElement {
2335 match expr_element.element_type.native_class.class_name.as_str() {
2336 "MoveTo" => {
2337 PathElement::MoveTo(new_struct_with_bindings(&expr_element.bindings, local_context))
2338 }
2339 "LineTo" => {
2340 PathElement::LineTo(new_struct_with_bindings(&expr_element.bindings, local_context))
2341 }
2342 "ArcTo" => {
2343 PathElement::ArcTo(new_struct_with_bindings(&expr_element.bindings, local_context))
2344 }
2345 "CubicTo" => {
2346 PathElement::CubicTo(new_struct_with_bindings(&expr_element.bindings, local_context))
2347 }
2348 "QuadraticTo" => PathElement::QuadraticTo(new_struct_with_bindings(
2349 &expr_element.bindings,
2350 local_context,
2351 )),
2352 "Close" => PathElement::Close,
2353 _ => panic!(
2354 "Cannot create unsupported path element {}",
2355 expr_element.element_type.native_class.class_name
2356 ),
2357 }
2358}
2359
2360pub fn default_value_for_type(ty: &Type) -> Value {
2362 match ty {
2363 Type::Float32 | Type::Int32 => Value::Number(0.),
2364 Type::String => Value::String(Default::default()),
2365 Type::Color | Type::Brush => Value::Brush(Default::default()),
2366 Type::Duration | Type::Angle | Type::PhysicalLength | Type::LogicalLength | Type::Rem => {
2367 Value::Number(0.)
2368 }
2369 Type::Image => Value::Image(Default::default()),
2370 Type::Bool => Value::Bool(false),
2371 Type::Callback { .. } => Value::Void,
2372 Type::Struct(s) => Value::Struct(
2373 s.fields
2374 .iter()
2375 .map(|(n, t)| (n.to_string(), default_value_for_type(t)))
2376 .collect::<Struct>(),
2377 ),
2378 Type::Array(_) | Type::Model => Value::Model(Default::default()),
2379 Type::Percent => Value::Number(0.),
2380 Type::Enumeration(e) => Value::EnumerationValue(
2381 e.name.to_string(),
2382 e.values.get(e.default_value).unwrap().to_string(),
2383 ),
2384 Type::Keys => Value::Keys(Default::default()),
2385 Type::DataTransfer => Value::DataTransfer(Default::default()),
2386 Type::Easing => Value::EasingCurve(Default::default()),
2387 Type::Void | Type::Invalid => Value::Void,
2388 Type::UnitProduct(_) => Value::Number(0.),
2389 Type::PathData => Value::PathData(Default::default()),
2390 Type::LayoutCache => Value::LayoutCache(Default::default()),
2391 Type::ArrayOfU16 => Value::ArrayOfU16(Default::default()),
2392 Type::ComponentFactory => Value::ComponentFactory(Default::default()),
2393 Type::InferredProperty
2394 | Type::InferredCallback
2395 | Type::ElementReference
2396 | Type::Function { .. } => {
2397 panic!("There can't be such property")
2398 }
2399 Type::StyledText => Value::StyledText(Default::default()),
2400 }
2401}
2402
2403fn menu_item_tree_properties(
2404 context_menu_item_tree: vtable::VRc<i_slint_core::menus::MenuVTable, MenuFromItemTree>,
2405) -> (Box<dyn Fn() -> Value>, CallbackHandler, CallbackHandler) {
2406 let context_menu_item_tree_ = context_menu_item_tree.clone();
2407 let entries = Box::new(move || {
2408 let mut entries = SharedVector::default();
2409 context_menu_item_tree_.sub_menu(None, &mut entries);
2410 Value::Model(ModelRc::new(VecModel::from(
2411 entries.into_iter().map(Value::from).collect::<Vec<_>>(),
2412 )))
2413 });
2414 let context_menu_item_tree_ = context_menu_item_tree.clone();
2415 let sub_menu = Box::new(move |args: &[Value]| -> Value {
2416 let mut entries = SharedVector::default();
2417 context_menu_item_tree_.sub_menu(Some(&args[0].clone().try_into().unwrap()), &mut entries);
2418 Value::Model(ModelRc::new(VecModel::from(
2419 entries.into_iter().map(Value::from).collect::<Vec<_>>(),
2420 )))
2421 });
2422 let activated = Box::new(move |args: &[Value]| -> Value {
2423 context_menu_item_tree.activate(&args[0].clone().try_into().unwrap());
2424 Value::Void
2425 });
2426 (entries, sub_menu, activated)
2427}