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util.rs
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// Copyright © SixtyFPS GmbH <[email protected]>
// SPDX-License-Identifier: GPL-3.0-only OR LicenseRef-Slint-commercial
use i_slint_compiler::diagnostics::{DiagnosticLevel, Spanned};
use i_slint_compiler::langtype::ElementType;
use i_slint_compiler::lookup::LookupCtx;
use i_slint_compiler::object_tree;
use i_slint_compiler::parser::{syntax_nodes, SyntaxKind, SyntaxNode};
use i_slint_compiler::typeregister::TypeRegister;
use crate::DocumentCache;
/// Given a node within an element, return the Type for the Element under that node.
/// (If node is an element, return the Type for that element, otherwise the type of the element under it)
/// Will return `Foo` in the following example where `|` is the cursor.
///
/// ```text
/// Hello := A {
/// B {
/// Foo {
/// |
/// }
/// }
/// }
/// ```
pub fn lookup_current_element_type(mut node: SyntaxNode, tr: &TypeRegister) -> Option<ElementType> {
while node.kind() != SyntaxKind::Element {
if let Some(parent) = node.parent() {
node = parent
} else {
return None;
}
}
let parent = node.parent()?;
if parent.kind() == SyntaxKind::Component {
if parent.child_text(SyntaxKind::Identifier).map_or(false, |x| x == "global") {
return Some(ElementType::Global);
}
}
let parent = lookup_current_element_type(parent, tr).unwrap_or_default();
let qualname = object_tree::QualifiedTypeName::from_node(
syntax_nodes::Element::from(node).QualifiedName()?,
);
parent.lookup_type_for_child_element(&qualname.to_string(), tr).ok()
}
/// Run the function with the LookupCtx associated with the token
pub fn with_lookup_ctx<R>(
document_cache: &DocumentCache,
node: SyntaxNode,
f: impl FnOnce(&mut LookupCtx) -> R,
) -> Option<R> {
let (element, prop_name) = lookup_expression_context(node)?;
with_property_lookup_ctx::<R>(document_cache, &element, &prop_name, f)
}
/// Run the function with the LookupCtx associated with the token
pub fn with_property_lookup_ctx<R>(
document_cache: &DocumentCache,
element: &syntax_nodes::Element,
prop_name: &str,
f: impl FnOnce(&mut LookupCtx) -> R,
) -> Option<R> {
let global_tr = document_cache.documents.global_type_registry.borrow();
let tr = element
.source_file()
.and_then(|sf| document_cache.documents.get_document(sf.path()))
.map(|doc| &doc.local_registry)
.unwrap_or(&global_tr);
let ty = element
.PropertyDeclaration()
.find_map(|p| {
(i_slint_compiler::parser::identifier_text(&p.DeclaredIdentifier())? == prop_name)
.then(|| p)
})
.and_then(|p| p.Type())
.map(|n| object_tree::type_from_node(n, &mut Default::default(), tr))
.or_else(|| {
lookup_current_element_type((**element).clone(), tr)
.map(|el_ty| el_ty.lookup_property(prop_name).property_type)
});
// FIXME: we need also to fill in the repeated element
let component = {
let mut n = element.parent()?;
loop {
if let Some(component) = syntax_nodes::Component::new(n.clone()) {
break component;
}
n = n.parent()?;
}
};
let component = i_slint_compiler::parser::identifier_text(&component.DeclaredIdentifier())
.and_then(|component_name| tr.lookup_element(&component_name).ok())?;
let scope = if let ElementType::Component(c) = component {
vec![c.root_element.clone()]
} else {
Vec::new()
};
let mut build_diagnostics = Default::default();
let mut lookup_context = LookupCtx::empty_context(tr, &mut build_diagnostics);
lookup_context.property_name = Some(prop_name);
lookup_context.property_type = ty.unwrap_or_default();
lookup_context.component_scope = &scope;
Some(f(&mut lookup_context))
}
/// Return the element and property name in which we are
fn lookup_expression_context(mut n: SyntaxNode) -> Option<(syntax_nodes::Element, String)> {
let (element, prop_name) = loop {
if let Some(decl) = syntax_nodes::PropertyDeclaration::new(n.clone()) {
let prop_name = i_slint_compiler::parser::identifier_text(&decl.DeclaredIdentifier())?;
let element = syntax_nodes::Element::new(n.parent()?)?;
break (element, prop_name);
}
match n.kind() {
SyntaxKind::Binding
| SyntaxKind::TwoWayBinding
// FIXME: arguments of the callback
| SyntaxKind::CallbackConnection => {
let prop_name = i_slint_compiler::parser::identifier_text(&n)?;
let element = syntax_nodes::Element::new(n.parent()?)?;
break (element, prop_name);
}
SyntaxKind::ConditionalElement | SyntaxKind::RepeatedElement => {
let element = syntax_nodes::Element::new(n.parent()?)?;
break (element, "$model".to_string());
}
SyntaxKind::Element => {
// oops: missed it
let element = syntax_nodes::Element::new(n)?;
break (element, String::new());
}
_ => n = n.parent()?,
}
};
Some((element, prop_name))
}
pub fn to_lsp_diag(d: &i_slint_compiler::diagnostics::Diagnostic) -> lsp_types::Diagnostic {
lsp_types::Diagnostic::new(
to_range(d.line_column()),
Some(to_lsp_diag_level(d.level())),
None,
None,
d.message().to_owned(),
None,
None,
)
}
fn to_range(span: (usize, usize)) -> lsp_types::Range {
let pos = lsp_types::Position::new(
(span.0 as u32).saturating_sub(1),
(span.1 as u32).saturating_sub(1),
);
lsp_types::Range::new(pos, pos)
}
fn to_lsp_diag_level(level: DiagnosticLevel) -> lsp_types::DiagnosticSeverity {
match level {
DiagnosticLevel::Error => lsp_types::DiagnosticSeverity::ERROR,
DiagnosticLevel::Warning => lsp_types::DiagnosticSeverity::WARNING,
_ => lsp_types::DiagnosticSeverity::INFORMATION,
}
}