use crate::common::*; /// Methods commmon to all AST nodes. Currently only used in parser unit tests. pub(crate) trait Node<'src> { /// Construct an untyped tree of atoms representing this Node. This function, /// and `Tree` type, are only used in parser unit tests. fn tree(&self) -> Tree<'src>; } impl<'src> Node<'src> for Ast<'src> { fn tree(&self) -> Tree<'src> { Tree::atom("justfile") .extend(self.items.iter().map(Node::tree)) .extend(self.warnings.iter().map(Node::tree)) } } impl<'src> Node<'src> for Item<'src> { fn tree(&self) -> Tree<'src> { match self { Item::Alias(alias) => alias.tree(), Item::Assignment(assignment) => assignment.tree(), Item::Comment(comment) => comment.tree(), Item::Recipe(recipe) => recipe.tree(), Item::Set(set) => set.tree(), } } } impl<'src> Node<'src> for Alias<'src, Name<'src>> { fn tree(&self) -> Tree<'src> { Tree::atom(Keyword::Alias.lexeme()) .push(self.name.lexeme()) .push(self.target.lexeme()) } } impl<'src> Node<'src> for Assignment<'src> { fn tree(&self) -> Tree<'src> { if self.export { Tree::atom("assignment") .push("#") .push(Keyword::Export.lexeme()) } else { Tree::atom("assignment") } .push(self.name.lexeme()) .push(self.value.tree()) } } impl<'src> Node<'src> for Expression<'src> { fn tree(&self) -> Tree<'src> { match self { Expression::Concatination { lhs, rhs } => Tree::atom("+").push(lhs.tree()).push(rhs.tree()), Expression::Conditional { lhs, rhs, then, otherwise, operator, } => { let mut tree = Tree::atom(Keyword::If.lexeme()); tree.push_mut(lhs.tree()); tree.push_mut(operator.to_string()); tree.push_mut(rhs.tree()); tree.push_mut(then.tree()); tree.push_mut(otherwise.tree()); tree } Expression::Call { thunk } => { use Thunk::*; let mut tree = Tree::atom("call"); match thunk { Nullary { name, .. } => tree.push_mut(name.lexeme()), Unary { name, arg, .. } => { tree.push_mut(name.lexeme()); tree.push_mut(arg.tree()); } Binary { name, args: [a, b], .. } => { tree.push_mut(name.lexeme()); tree.push_mut(a.tree()); tree.push_mut(b.tree()); } BinaryPlus { name, args: ([a, b], rest), .. } => { tree.push_mut(name.lexeme()); tree.push_mut(a.tree()); tree.push_mut(b.tree()); for arg in rest { tree.push_mut(arg.tree()); } } Ternary { name, args: [a, b, c], .. } => { tree.push_mut(name.lexeme()); tree.push_mut(a.tree()); tree.push_mut(b.tree()); tree.push_mut(c.tree()); } } tree } Expression::Variable { name } => Tree::atom(name.lexeme()), Expression::StringLiteral { string_literal: StringLiteral { cooked, .. }, } => Tree::string(cooked), Expression::Backtick { contents, .. } => Tree::atom("backtick").push(Tree::string(contents)), Expression::Group { contents } => Tree::List(vec![contents.tree()]), } } } impl<'src> Node<'src> for UnresolvedRecipe<'src> { fn tree(&self) -> Tree<'src> { let mut t = Tree::atom("recipe"); if self.quiet { t.push_mut("#"); t.push_mut("quiet"); } if let Some(doc) = self.doc { t.push_mut(Tree::string(doc)); } t.push_mut(self.name.lexeme()); if !self.parameters.is_empty() { let mut params = Tree::atom("params"); for parameter in &self.parameters { if let Some(prefix) = parameter.kind.prefix() { params.push_mut(prefix); } params.push_mut(parameter.tree()); } t.push_mut(params); } if !self.dependencies.is_empty() { let mut dependencies = Tree::atom("deps"); let mut subsequents = Tree::atom("sups"); for (i, dependency) in self.dependencies.iter().enumerate() { let mut d = Tree::atom(dependency.recipe.lexeme()); for argument in &dependency.arguments { d.push_mut(argument.tree()); } if i < self.priors { dependencies.push_mut(d); } else { subsequents.push_mut(d); } } if let Tree::List(_) = dependencies { t.push_mut(dependencies); } if let Tree::List(_) = subsequents { t.push_mut(subsequents); } } if !self.body.is_empty() { t.push_mut(Tree::atom("body").extend(self.body.iter().map(Node::tree))); } t } } impl<'src> Node<'src> for Parameter<'src> { fn tree(&self) -> Tree<'src> { let mut children = vec![Tree::atom(self.name.lexeme())]; if let Some(default) = &self.default { children.push(default.tree()); } Tree::List(children) } } impl<'src> Node<'src> for Line<'src> { fn tree(&self) -> Tree<'src> { Tree::list(self.fragments.iter().map(Node::tree)) } } impl<'src> Node<'src> for Fragment<'src> { fn tree(&self) -> Tree<'src> { match self { Fragment::Text { token } => Tree::string(token.lexeme()), Fragment::Interpolation { expression } => Tree::List(vec![expression.tree()]), } } } impl<'src> Node<'src> for Set<'src> { fn tree(&self) -> Tree<'src> { use Setting::*; let mut set = Tree::atom(Keyword::Set.lexeme()); set.push_mut(self.name.lexeme().replace('-', "_")); match &self.value { AllowDuplicateRecipes(value) | DotenvLoad(value) | Export(value) | PositionalArguments(value) | WindowsPowerShell(value) => { set.push_mut(value.to_string()); } Shell(setting::Shell { command, arguments }) => { set.push_mut(Tree::string(&command.cooked)); for argument in arguments { set.push_mut(Tree::string(&argument.cooked)); } } } set } } impl<'src> Node<'src> for Warning { fn tree(&self) -> Tree<'src> { unreachable!() } } impl<'src> Node<'src> for str { fn tree(&self) -> Tree<'src> { Tree::atom("comment").push(["\"", self, "\""].concat()) } }