use std::fmt::{self, Debug, Formatter}; use std::sync::Arc; use ecow::{eco_format, EcoString}; use typst_syntax::FileId; use crate::diag::{bail, DeprecationSink, StrResult}; use crate::foundations::{repr, ty, Content, Scope, Value}; /// An module of definitions. /// /// A module /// - be built-in /// - stem from a [file import]($scripting/#modules) /// - stem from a [package import]($scripting/#packages) (and thus indirectly /// its entrypoint file) /// - result from a call to the [plugin]($plugin) function /// /// You can access definitions from the module using [field access /// notation]($scripting/#fields) and interact with it using the [import and /// include syntaxes]($scripting/#modules). Alternatively, it is possible to /// convert a module to a dictionary, and therefore access its contents /// dynamically, using the [dictionary constructor]($dictionary/#constructor). /// /// # Example /// ```example /// <<< #import "utils.typ" /// <<< #utils.add(2, 5) /// /// <<< #import utils: sub /// <<< #sub(1, 4) /// >>> #7 /// >>> /// >>> #(-3) /// ``` #[ty(cast)] #[derive(Clone, Hash)] #[allow(clippy::derived_hash_with_manual_eq)] pub struct Module { /// The module's name. name: Option, /// The reference-counted inner fields. inner: Arc, } /// The internal representation. #[derive(Debug, Clone, Hash)] struct Repr { /// The top-level definitions that were bound in this module. scope: Scope, /// The module's layoutable contents. content: Content, /// The id of the file which defines the module, if any. file_id: Option, } impl Module { /// Create a new module. pub fn new(name: impl Into, scope: Scope) -> Self { Self { name: Some(name.into()), inner: Arc::new(Repr { scope, content: Content::empty(), file_id: None }), } } /// Create a new anonymous module without a name. pub fn anonymous(scope: Scope) -> Self { Self { name: None, inner: Arc::new(Repr { scope, content: Content::empty(), file_id: None }), } } /// Update the module's name. pub fn with_name(mut self, name: impl Into) -> Self { self.name = Some(name.into()); self } /// Update the module's scope. pub fn with_scope(mut self, scope: Scope) -> Self { Arc::make_mut(&mut self.inner).scope = scope; self } /// Update the module's content. pub fn with_content(mut self, content: Content) -> Self { Arc::make_mut(&mut self.inner).content = content; self } /// Update the module's file id. pub fn with_file_id(mut self, file_id: FileId) -> Self { Arc::make_mut(&mut self.inner).file_id = Some(file_id); self } /// Get the module's name. pub fn name(&self) -> Option<&EcoString> { self.name.as_ref() } /// Access the module's scope. pub fn scope(&self) -> &Scope { &self.inner.scope } /// Access the module's file id. /// /// Some modules are not associated with a file, like the built-in modules. pub fn file_id(&self) -> Option { self.inner.file_id } /// Access the module's scope, mutably. pub fn scope_mut(&mut self) -> &mut Scope { &mut Arc::make_mut(&mut self.inner).scope } /// Try to access a definition in the module. pub fn field(&self, field: &str, sink: impl DeprecationSink) -> StrResult<&Value> { match self.scope().get(field) { Some(binding) => Ok(binding.read_checked(sink)), None => match &self.name { Some(name) => bail!("module `{name}` does not contain `{field}`"), None => bail!("module does not contain `{field}`"), }, } } /// Extract the module's content. pub fn content(self) -> Content { match Arc::try_unwrap(self.inner) { Ok(repr) => repr.content, Err(arc) => arc.content.clone(), } } } impl Debug for Module { fn fmt(&self, f: &mut Formatter) -> fmt::Result { f.debug_struct("Module") .field("name", &self.name) .field("scope", &self.inner.scope) .field("content", &self.inner.content) .finish() } } impl repr::Repr for Module { fn repr(&self) -> EcoString { match &self.name { Some(module) => eco_format!(""), None => "".into(), } } } impl PartialEq for Module { fn eq(&self, other: &Self) -> bool { self.name == other.name && Arc::ptr_eq(&self.inner, &other.inner) } }