f91ccf9ace
Simplify the `run` macro to avoid sometimes unnecessary dependency on `TyCtxt`. Instead, users can use the new internal method `tcx()`. Additionally, extend the macro to accept closures that may capture variables. These are non-backward compatible changes, but they only affect internal APIs which are provided today as helper functions until we have a stable API to start the compiler.
251 lines
7.8 KiB
Rust
251 lines
7.8 KiB
Rust
// run-pass
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// Test that users are able to use stable mir APIs to retrieve information of the current crate
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// ignore-stage1
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// ignore-cross-compile
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// ignore-remote
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// ignore-windows-gnu mingw has troubles with linking https://github.com/rust-lang/rust/pull/116837
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// edition: 2021
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#![feature(rustc_private)]
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#![feature(assert_matches)]
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#![feature(control_flow_enum)]
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extern crate rustc_hir;
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#[macro_use]
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extern crate rustc_smir;
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extern crate rustc_driver;
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extern crate rustc_interface;
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extern crate stable_mir;
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use rustc_hir::def::DefKind;
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use rustc_smir::rustc_internal;
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use stable_mir::ItemKind;
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use stable_mir::crate_def::CrateDef;
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use stable_mir::mir::mono::Instance;
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use stable_mir::ty::{RigidTy, TyKind};
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use std::assert_matches::assert_matches;
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use std::io::Write;
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use std::ops::ControlFlow;
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const CRATE_NAME: &str = "input";
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/// This function uses the Stable MIR APIs to get information about the test crate.
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fn test_stable_mir() -> ControlFlow<()> {
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// Get the local crate using stable_mir API.
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let local = stable_mir::local_crate();
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assert_eq!(&local.name, CRATE_NAME);
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assert_eq!(stable_mir::entry_fn(), None);
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// Find items in the local crate.
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let items = stable_mir::all_local_items();
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assert!(get_item(&items, (DefKind::Fn, "foo::bar")).is_some());
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// Find the `std` crate and assert that there is only one of it.
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assert!(stable_mir::find_crates("std").len() == 1);
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let bar = get_item(&items, (DefKind::Fn, "bar")).unwrap();
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let body = bar.body();
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assert_eq!(body.locals().len(), 2);
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assert_eq!(body.blocks.len(), 1);
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let block = &body.blocks[0];
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assert_eq!(block.statements.len(), 1);
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match &block.statements[0].kind {
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stable_mir::mir::StatementKind::Assign(..) => {}
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other => panic!("{other:?}"),
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}
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match &block.terminator.kind {
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stable_mir::mir::TerminatorKind::Return => {}
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other => panic!("{other:?}"),
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}
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let foo_bar = get_item(&items, (DefKind::Fn, "foo_bar")).unwrap();
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let body = foo_bar.body();
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assert_eq!(body.locals().len(), 5);
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assert_eq!(body.blocks.len(), 4);
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let block = &body.blocks[0];
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match &block.terminator.kind {
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stable_mir::mir::TerminatorKind::Call { .. } => {}
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other => panic!("{other:?}"),
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}
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let types = get_item(&items, (DefKind::Fn, "types")).unwrap();
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let body = types.body();
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assert_eq!(body.locals().len(), 6);
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assert_matches!(
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body.locals()[0].ty.kind(),
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stable_mir::ty::TyKind::RigidTy(stable_mir::ty::RigidTy::Bool)
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);
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assert_matches!(
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body.locals()[1].ty.kind(),
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stable_mir::ty::TyKind::RigidTy(stable_mir::ty::RigidTy::Bool)
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);
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assert_matches!(
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body.locals()[2].ty.kind(),
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stable_mir::ty::TyKind::RigidTy(stable_mir::ty::RigidTy::Char)
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);
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assert_matches!(
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body.locals()[3].ty.kind(),
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stable_mir::ty::TyKind::RigidTy(stable_mir::ty::RigidTy::Int(stable_mir::ty::IntTy::I32))
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);
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assert_matches!(
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body.locals()[4].ty.kind(),
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stable_mir::ty::TyKind::RigidTy(stable_mir::ty::RigidTy::Uint(stable_mir::ty::UintTy::U64))
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);
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assert_matches!(
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body.locals()[5].ty.kind(),
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stable_mir::ty::TyKind::RigidTy(stable_mir::ty::RigidTy::Float(
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stable_mir::ty::FloatTy::F64
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))
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);
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let drop = get_item(&items, (DefKind::Fn, "drop")).unwrap();
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let body = drop.body();
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assert_eq!(body.blocks.len(), 2);
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let block = &body.blocks[0];
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match &block.terminator.kind {
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stable_mir::mir::TerminatorKind::Drop { .. } => {}
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other => panic!("{other:?}"),
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}
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let assert = get_item(&items, (DefKind::Fn, "assert")).unwrap();
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let body = assert.body();
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assert_eq!(body.blocks.len(), 2);
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let block = &body.blocks[0];
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match &block.terminator.kind {
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stable_mir::mir::TerminatorKind::Assert { .. } => {}
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other => panic!("{other:?}"),
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}
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let monomorphic = get_item(&items, (DefKind::Fn, "monomorphic")).unwrap();
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let instance = Instance::try_from(monomorphic.clone()).unwrap();
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for block in instance.body().unwrap().blocks {
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match &block.terminator.kind {
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stable_mir::mir::TerminatorKind::Call { func, .. } => {
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let TyKind::RigidTy(ty) = func.ty(&body.locals()).unwrap().kind() else {
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unreachable!() };
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let RigidTy::FnDef(def, args) = ty else { unreachable!() };
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let next_func = Instance::resolve(def, &args).unwrap();
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match next_func.body().unwrap().locals()[1].ty.kind() {
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TyKind::RigidTy(RigidTy::Uint(_)) | TyKind::RigidTy(RigidTy::Tuple(_)) => {}
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other => panic!("{other:?}"),
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}
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}
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stable_mir::mir::TerminatorKind::Return => {}
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other => panic!("{other:?}"),
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}
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}
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let foo_const = get_item(&items, (DefKind::Const, "FOO")).unwrap();
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// Ensure we don't panic trying to get the body of a constant.
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foo_const.body();
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let locals_fn = get_item(&items, (DefKind::Fn, "locals")).unwrap();
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let body = locals_fn.body();
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assert_eq!(body.locals().len(), 4);
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assert_matches!(
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body.ret_local().ty.kind(),
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stable_mir::ty::TyKind::RigidTy(stable_mir::ty::RigidTy::Char)
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);
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assert_eq!(body.arg_locals().len(), 2);
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assert_matches!(
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body.arg_locals()[0].ty.kind(),
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stable_mir::ty::TyKind::RigidTy(stable_mir::ty::RigidTy::Int(stable_mir::ty::IntTy::I32))
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);
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assert_matches!(
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body.arg_locals()[1].ty.kind(),
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stable_mir::ty::TyKind::RigidTy(stable_mir::ty::RigidTy::Uint(stable_mir::ty::UintTy::U64))
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);
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assert_eq!(body.inner_locals().len(), 1);
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// If conditions have an extra inner local to hold their results
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assert_matches!(
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body.inner_locals()[0].ty.kind(),
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stable_mir::ty::TyKind::RigidTy(stable_mir::ty::RigidTy::Bool)
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);
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ControlFlow::Continue(())
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}
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// Use internal API to find a function in a crate.
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fn get_item<'a>(
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items: &'a stable_mir::CrateItems,
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item: (DefKind, &str),
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) -> Option<&'a stable_mir::CrateItem> {
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items.iter().find(|crate_item| {
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matches!((item.0, crate_item.kind()), (DefKind::Fn, ItemKind::Fn) | (DefKind::Const,
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ItemKind::Const)) && crate_item.name() == item.1
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})
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}
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/// This test will generate and analyze a dummy crate using the stable mir.
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/// For that, it will first write the dummy crate into a file.
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/// Then it will create a `StableMir` using custom arguments and then
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/// it will run the compiler.
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fn main() {
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let path = "input.rs";
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generate_input(&path).unwrap();
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let args = vec![
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"rustc".to_string(),
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"--crate-type=lib".to_string(),
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"--crate-name".to_string(),
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CRATE_NAME.to_string(),
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path.to_string(),
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];
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run!(args, test_stable_mir).unwrap();
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}
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fn generate_input(path: &str) -> std::io::Result<()> {
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let mut file = std::fs::File::create(path)?;
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write!(
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file,
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r#"
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pub const FOO: u32 = 1 + 2;
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fn generic<T, const U: usize>(t: T) -> [(); U] {{
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_ = t;
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[(); U]
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}}
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pub fn monomorphic() {{
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generic::<(), 5>(());
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generic::<u32, 0>(45);
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}}
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mod foo {{
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pub fn bar(i: i32) -> i64 {{
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i as i64
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}}
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}}
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pub fn bar(x: i32) -> i32 {{
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x
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}}
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pub fn foo_bar(x: i32, y: i32) -> i64 {{
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let x_64 = foo::bar(x);
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let y_64 = foo::bar(y);
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x_64.wrapping_add(y_64)
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}}
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pub fn types(b: bool, _: char, _: i32, _: u64, _: f64) -> bool {{
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b
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}}
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pub fn drop(_: String) {{}}
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pub fn assert(x: i32) -> i32 {{
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x + 1
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}}
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pub fn locals(a: i32, _: u64) -> char {{
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if a > 5 {{
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'a'
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}} else {{
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'b'
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}}
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}}"#
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)?;
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Ok(())
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}
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