#![feature(arbitrary_self_types)] #![feature(arbitrary_self_types_pointers)] #![allow(clippy::needless_return)] // tokio macro-generated code doesn't respect this use std::sync::Mutex; use turbo_tasks::{ResolvedVc, Vc, debug::ValueDebug}; use turbo_tasks_testing::{Registration, register, run}; static REGISTRATION: Registration = register!(); #[tokio::test] async fn primitive_debug() { run(®ISTRATION, || async { let a: Vc = Vc::cell(42); assert_eq!(format!("{:?}", a.dbg().await?), "42"); anyhow::Ok(()) }) .await .unwrap() } #[tokio::test] async fn transparent_debug() { run(®ISTRATION, || async { let a: Vc = Transparent(42).cell(); assert_eq!(format!("{:?}", a.dbg().await?), "42"); anyhow::Ok(()) }) .await .unwrap() } #[tokio::test] async fn enum_none_debug() { run(®ISTRATION, || async { let a: Vc = Enum::None.cell(); assert_eq!(format!("{:?}", a.dbg().await?), "Enum :: None"); anyhow::Ok(()) }) .await .unwrap() } #[tokio::test] async fn enum_transparent_debug() { run(®ISTRATION, || async { let a: Vc = Enum::Transparent(Transparent(42).resolved_cell()).cell(); assert_eq!( format!("{:?}", a.dbg().await?), r#"Enum :: Transparent( 42, )"# ); anyhow::Ok(()) }) .await .unwrap() } #[tokio::test] async fn enum_inner_vc_debug() { run(®ISTRATION, || async { let a: Vc = Enum::Enum(Enum::None.resolved_cell()).cell(); assert_eq!( format!("{:?}", a.dbg().await?), r#"Enum :: Enum( Enum :: None, )"# ); anyhow::Ok(()) }) .await .unwrap() } #[tokio::test] async fn struct_unit_debug() { run(®ISTRATION, || async { let a: Vc = StructUnit.cell(); assert_eq!(format!("{:?}", a.dbg().await?), "StructUnit"); anyhow::Ok(()) }) .await .unwrap() } #[tokio::test] async fn struct_transparent_debug() { run(®ISTRATION, || async { let a: Vc = StructWithTransparent { transparent: Transparent(42).resolved_cell(), } .cell(); assert_eq!( format!("{:?}", a.dbg().await?), r#"StructWithTransparent { transparent: 42, }"# ); anyhow::Ok(()) }) .await .unwrap() } #[tokio::test] async fn struct_vec_debug() { run(®ISTRATION, || async { let a: Vc = StructWithVec { vec: vec![] }.cell(); assert_eq!( format!("{:?}", a.dbg().await?), r#"StructWithVec { vec: [], }"# ); let b: Vc = StructWithVec { vec: vec![Transparent(42).resolved_cell()], } .cell(); assert_eq!( format!("{:?}", b.dbg().await?), r#"StructWithVec { vec: [ 42, ], }"# ); anyhow::Ok(()) }) .await .unwrap() } #[tokio::test] async fn struct_ignore_debug() { run(®ISTRATION, || async { let a: Vc = StructWithIgnore { dont_ignore: 42, ignore: Mutex::new(()), } .cell(); assert_eq!( format!("{:?}", a.dbg().await?), r#"StructWithIgnore { dont_ignore: 42, }"# ); anyhow::Ok(()) }) .await .unwrap() } #[turbo_tasks::value(transparent, shared)] struct Transparent(u32); // Allow Enum::Enum #[allow(clippy::enum_variant_names)] #[turbo_tasks::value(shared)] enum Enum { None, Transparent(ResolvedVc), Enum(ResolvedVc), } #[turbo_tasks::value(shared)] struct StructUnit; #[turbo_tasks::value(shared)] struct StructWithTransparent { transparent: ResolvedVc, } #[turbo_tasks::value(shared)] struct StructWithOption { option: Option>, } #[turbo_tasks::value(shared)] struct StructWithVec { vec: Vec>, } #[turbo_tasks::value(shared, eq = "manual")] struct StructWithIgnore { dont_ignore: u32, // We're using a `Mutex` instead of a `T: Debug` type to ensure we support `T: !Debug`. #[turbo_tasks(debug_ignore, trace_ignore)] ignore: Mutex<()>, } impl PartialEq for StructWithIgnore { fn eq(&self, other: &Self) -> bool { self.dont_ignore == other.dont_ignore } } impl Eq for StructWithIgnore {}