//! This module contains free-standing functions for creating AST fragments out //! of smaller pieces. use itertools::Itertools; use crate::{ast, AstNode, SourceFile}; pub fn name_ref(text: &str) -> ast::NameRef { ast_from_text(&format!("fn f() {{ {}; }}", text)) } pub fn path_from_name_ref(name_ref: ast::NameRef) -> ast::Path { path_from_text(&name_ref.syntax().to_string()) } pub fn path_qualified(qual: ast::Path, name_ref: ast::NameRef) -> ast::Path { path_from_text(&format!("{}::{}", qual.syntax(), name_ref.syntax())) } fn path_from_text(text: &str) -> ast::Path { ast_from_text(text) } pub fn record_field(name: ast::NameRef, expr: Option) -> ast::RecordField { return match expr { Some(expr) => from_text(&format!("{}: {}", name.syntax(), expr.syntax())), None => from_text(&name.syntax().to_string()), }; fn from_text(text: &str) -> ast::RecordField { ast_from_text(&format!("fn f() {{ S {{ {}, }} }}", text)) } } pub fn block_from_expr(e: ast::Expr) -> ast::Block { return from_text(&format!("{{ {} }}", e.syntax())); fn from_text(text: &str) -> ast::Block { ast_from_text(&format!("fn f() {}", text)) } } pub fn expr_unit() -> ast::Expr { expr_from_text("()") } pub fn expr_unimplemented() -> ast::Expr { expr_from_text("unimplemented!()") } fn expr_from_text(text: &str) -> ast::Expr { ast_from_text(&format!("const C: () = {};", text)) } pub fn bind_pat(name: ast::Name) -> ast::BindPat { return from_text(name.text()); fn from_text(text: &str) -> ast::BindPat { ast_from_text(&format!("fn f({}: ())", text)) } } pub fn placeholder_pat() -> ast::PlaceholderPat { return from_text("_"); fn from_text(text: &str) -> ast::PlaceholderPat { ast_from_text(&format!("fn f({}: ())", text)) } } pub fn tuple_struct_pat( path: ast::Path, pats: impl Iterator, ) -> ast::TupleStructPat { let pats_str = pats.map(|p| p.syntax().to_string()).join(", "); return from_text(&format!("{}({})", path.syntax(), pats_str)); fn from_text(text: &str) -> ast::TupleStructPat { ast_from_text(&format!("fn f({}: ())", text)) } } pub fn record_pat(path: ast::Path, pats: impl Iterator) -> ast::RecordPat { let pats_str = pats.map(|p| p.syntax().to_string()).join(", "); return from_text(&format!("{} {{ {} }}", path.syntax(), pats_str)); fn from_text(text: &str) -> ast::RecordPat { ast_from_text(&format!("fn f({}: ())", text)) } } pub fn path_pat(path: ast::Path) -> ast::PathPat { let path_str = path.syntax().text().to_string(); return from_text(path_str.as_str()); fn from_text(text: &str) -> ast::PathPat { ast_from_text(&format!("fn f({}: ())", text)) } } pub fn match_arm(pats: impl Iterator, expr: ast::Expr) -> ast::MatchArm { let pats_str = pats.map(|p| p.syntax().to_string()).join(" | "); return from_text(&format!("{} => {}", pats_str, expr.syntax())); fn from_text(text: &str) -> ast::MatchArm { ast_from_text(&format!("fn f() {{ match () {{{}}} }}", text)) } } pub fn match_arm_list(arms: impl Iterator) -> ast::MatchArmList { let arms_str = arms.map(|arm| format!("\n {}", arm.syntax())).join(","); return from_text(&format!("{},\n", arms_str)); fn from_text(text: &str) -> ast::MatchArmList { ast_from_text(&format!("fn f() {{ match () {{{}}} }}", text)) } } pub fn where_pred(path: ast::Path, bounds: impl Iterator) -> ast::WherePred { let bounds = bounds.map(|b| b.syntax().to_string()).join(" + "); return from_text(&format!("{}: {}", path.syntax(), bounds)); fn from_text(text: &str) -> ast::WherePred { ast_from_text(&format!("fn f() where {} {{ }}", text)) } } pub fn where_clause(preds: impl Iterator) -> ast::WhereClause { let preds = preds.map(|p| p.syntax().to_string()).join(", "); return from_text(preds.as_str()); fn from_text(text: &str) -> ast::WhereClause { ast_from_text(&format!("fn f() where {} {{ }}", text)) } } pub fn if_expression(condition: &ast::Expr, statement: &str) -> ast::IfExpr { return ast_from_text(&format!( "fn f() {{ if !{} {{\n {}\n}}\n}}", condition.syntax().text(), statement )); } fn ast_from_text(text: &str) -> N { let parse = SourceFile::parse(text); let res = parse.tree().syntax().descendants().find_map(N::cast).unwrap(); res } pub mod tokens { use crate::{AstNode, Parse, SourceFile, SyntaxKind::*, SyntaxToken, T}; use once_cell::sync::Lazy; static SOURCE_FILE: Lazy> = Lazy::new(|| SourceFile::parse(",\n; ;")); pub fn comma() -> SyntaxToken { SOURCE_FILE .tree() .syntax() .descendants_with_tokens() .filter_map(|it| it.into_token()) .find(|it| it.kind() == T![,]) .unwrap() } pub fn single_space() -> SyntaxToken { SOURCE_FILE .tree() .syntax() .descendants_with_tokens() .filter_map(|it| it.into_token()) .find(|it| it.kind() == WHITESPACE && it.text().as_str() == " ") .unwrap() } pub fn whitespace(text: &str) -> SyntaxToken { assert!(text.trim().is_empty()); let sf = SourceFile::parse(text).ok().unwrap(); sf.syntax().first_child_or_token().unwrap().into_token().unwrap() } pub fn single_newline() -> SyntaxToken { SOURCE_FILE .tree() .syntax() .descendants_with_tokens() .filter_map(|it| it.into_token()) .find(|it| it.kind() == WHITESPACE && it.text().as_str() == "\n") .unwrap() } pub struct WsBuilder(SourceFile); impl WsBuilder { pub fn new(text: &str) -> WsBuilder { WsBuilder(SourceFile::parse(text).ok().unwrap()) } pub fn ws(&self) -> SyntaxToken { self.0.syntax().first_child_or_token().unwrap().into_token().unwrap() } } }