Fix and enable disabled codegen-units tests

This commit is contained in:
Ben Kimock 2024-08-10 12:19:38 -04:00
parent ca5d25e2c4
commit 03b6c2f2d4
5 changed files with 45 additions and 58 deletions

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@ -3027,11 +3027,17 @@ impl<'test> TestCx<'test> {
const PREFIX: &str = "MONO_ITEM ";
const CGU_MARKER: &str = "@@";
// Some MonoItems can contain {closure@/path/to/checkout/tests/codgen-units/test.rs}
// To prevent the current dir from leaking, we just replace the entire path to the test
// file with TEST_PATH.
let actual: Vec<MonoItem> = proc_res
.stdout
.lines()
.filter(|line| line.starts_with(PREFIX))
.map(|line| str_to_mono_item(line, true))
.map(|line| {
line.replace(&self.testpaths.file.display().to_string(), "TEST_PATH").to_string()
})
.map(|line| str_to_mono_item(&line, true))
.collect();
let expected: Vec<MonoItem> = errors::load_errors(&self.testpaths.file, None)

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@ -1,3 +1,5 @@
//@ compile-flags: -Zinline-mir=no
#![crate_type = "lib"]
#[inline]

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@ -1,9 +1,6 @@
// In the current version of the collector that still has to support
// legacy-codegen, closures do not generate their own MonoItems, so we are
// ignoring this test until MIR codegen has taken over completely
//@ ignore-test
//@ compile-flags:-Zprint-mono-items=eager
// We need to disable MIR inlining in both this and its aux-build crate. The MIR inliner
// will just inline everything into our start function if we let it. As it should.
//@ compile-flags:-Zprint-mono-items=eager -Zinline-mir=no
#![deny(dead_code)]
#![feature(start)]
@ -11,15 +8,15 @@
//@ aux-build:cgu_extern_closures.rs
extern crate cgu_extern_closures;
//~ MONO_ITEM fn cross_crate_closures::start[0]
//~ MONO_ITEM fn start @@ cross_crate_closures-cgu.0[Internal]
#[start]
fn start(_: isize, _: *const *const u8) -> isize {
//~ MONO_ITEM fn cgu_extern_closures::inlined_fn[0]
//~ MONO_ITEM fn cgu_extern_closures::inlined_fn[0]::{{closure}}[0]
//~ MONO_ITEM fn cgu_extern_closures::inlined_fn @@ cross_crate_closures-cgu.0[Internal]
//~ MONO_ITEM fn cgu_extern_closures::inlined_fn::{closure#0} @@ cross_crate_closures-cgu.0[Internal]
let _ = cgu_extern_closures::inlined_fn(1, 2);
//~ MONO_ITEM fn cgu_extern_closures::inlined_fn_generic[0]<i32>
//~ MONO_ITEM fn cgu_extern_closures::inlined_fn_generic[0]::{{closure}}[0]<i32>
//~ MONO_ITEM fn cgu_extern_closures::inlined_fn_generic::<i32> @@ cross_crate_closures-cgu.0[Internal]
//~ MONO_ITEM fn cgu_extern_closures::inlined_fn_generic::<i32>::{closure#0} @@ cross_crate_closures-cgu.0[Internal]
let _ = cgu_extern_closures::inlined_fn_generic(3, 4, 5i32);
// Nothing should be generated for this call, we just link to the instance
@ -28,5 +25,3 @@ fn start(_: isize, _: *const *const u8) -> isize {
0
}
//~ MONO_ITEM drop-glue i8

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@ -1,49 +1,45 @@
// In the current version of the collector that still has to support
// legacy-codegen, closures do not generate their own MonoItems, so we are
// ignoring this test until MIR codegen has taken over completely
//@ ignore-test
//
//@ compile-flags:-Zprint-mono-items=eager
//@ compile-flags:-Zprint-mono-items=eager -Zinline-mir=no
#![deny(dead_code)]
#![feature(start)]
//~ MONO_ITEM fn non_generic_closures::temporary[0]
//~ MONO_ITEM fn temporary @@ non_generic_closures-cgu.0[Internal]
fn temporary() {
//~ MONO_ITEM fn non_generic_closures::temporary[0]::{{closure}}[0]
//~ MONO_ITEM fn temporary::{closure#0} @@ non_generic_closures-cgu.0[Internal]
(|a: u32| {
let _ = a;
})(4);
}
//~ MONO_ITEM fn non_generic_closures::assigned_to_variable_but_not_executed[0]
//~ MONO_ITEM fn assigned_to_variable_but_not_executed @@ non_generic_closures-cgu.0[Internal]
fn assigned_to_variable_but_not_executed() {
//~ MONO_ITEM fn non_generic_closures::assigned_to_variable_but_not_executed[0]::{{closure}}[0]
let _x = |a: i16| {
let _ = a + 1;
};
}
//~ MONO_ITEM fn non_generic_closures::assigned_to_variable_executed_directly[0]
//~ MONO_ITEM fn assigned_to_variable_executed_indirectly @@ non_generic_closures-cgu.0[Internal]
fn assigned_to_variable_executed_indirectly() {
//~ MONO_ITEM fn non_generic_closures::assigned_to_variable_executed_directly[0]::{{closure}}[0]
//~ MONO_ITEM fn assigned_to_variable_executed_indirectly::{closure#0} @@ non_generic_closures-cgu.0[Internal]
//~ MONO_ITEM fn <{closure@TEST_PATH:27:13: 27:21} as std::ops::FnOnce<(i32,)>>::call_once - shim @@ non_generic_closures-cgu.0[Internal]
//~ MONO_ITEM fn <{closure@TEST_PATH:27:13: 27:21} as std::ops::FnOnce<(i32,)>>::call_once - shim(vtable) @@ non_generic_closures-cgu.0[Internal]
//~ MONO_ITEM fn std::ptr::drop_in_place::<{closure@TEST_PATH:27:13: 27:21}> - shim(None) @@ non_generic_closures-cgu.0[Internal]
let f = |a: i32| {
let _ = a + 2;
};
run_closure(&f);
}
//~ MONO_ITEM fn non_generic_closures::assigned_to_variable_executed_indirectly[0]
//~ MONO_ITEM fn assigned_to_variable_executed_directly @@ non_generic_closures-cgu.0[Internal]
fn assigned_to_variable_executed_directly() {
//~ MONO_ITEM fn non_generic_closures::assigned_to_variable_executed_indirectly[0]::{{closure}}[0]
//~ MONO_ITEM fn assigned_to_variable_executed_directly::{closure#0} @@ non_generic_closures-cgu.0[Internal]
let f = |a: i64| {
let _ = a + 3;
};
f(4);
}
//~ MONO_ITEM fn non_generic_closures::start[0]
//~ MONO_ITEM fn start @@ non_generic_closures-cgu.0[Internal]
#[start]
fn start(_: isize, _: *const *const u8) -> isize {
temporary();
@ -54,7 +50,7 @@ fn start(_: isize, _: *const *const u8) -> isize {
0
}
//~ MONO_ITEM fn non_generic_closures::run_closure[0]
//~ MONO_ITEM fn run_closure @@ non_generic_closures-cgu.0[Internal]
fn run_closure(f: &Fn(i32)) {
f(3);
}

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@ -1,30 +1,23 @@
// Currently, all generic functions are instantiated in each codegen unit that
// uses them, even those not marked with #[inline], so this test does not make
// much sense at the moment.
//@ ignore-test
// We specify incremental here because we want to test the partitioning for incremental compilation
//@ incremental
//@ compile-flags:-Zprint-mono-items=lazy
#![allow(dead_code)]
#![feature(start)]
#![crate_type = "lib"]
struct SomeType;
pub struct SomeType;
struct SomeGenericType<T1, T2>(T1, T2);
mod mod1 {
pub mod mod1 {
use super::{SomeGenericType, SomeType};
// Even though the impl is in `mod1`, the methods should end up in the
// parent module, since that is where their self-type is.
impl SomeType {
//~ MONO_ITEM fn methods_are_with_self_type::mod1[0]::{{impl}}[0]::method[0] @@ methods_are_with_self_type[External]
fn method(&self) {}
//~ MONO_ITEM fn methods_are_with_self_type::mod1[0]::{{impl}}[0]::associated_fn[0] @@ methods_are_with_self_type[External]
fn associated_fn() {}
//~ MONO_ITEM fn mod1::<impl SomeType>::method @@ methods_are_with_self_type[External]
pub fn method(&self) {}
//~ MONO_ITEM fn mod1::<impl SomeType>::associated_fn @@ methods_are_with_self_type[External]
pub fn associated_fn() {}
}
impl<T1, T2> SomeGenericType<T1, T2> {
@ -52,25 +45,20 @@ mod type2 {
pub struct Struct;
}
//~ MONO_ITEM fn methods_are_with_self_type::start[0]
#[start]
fn start(_: isize, _: *const *const u8) -> isize {
//~ MONO_ITEM fn methods_are_with_self_type::mod1[0]::{{impl}}[1]::method[0]<u32, u64> @@ methods_are_with_self_type.volatile[WeakODR]
//~ MONO_ITEM fn start @@ methods_are_with_self_type[External]
pub fn start() {
//~ MONO_ITEM fn mod1::<impl SomeGenericType<u32, u64>>::method @@ methods_are_with_self_type.volatile[External]
SomeGenericType(0u32, 0u64).method();
//~ MONO_ITEM fn methods_are_with_self_type::mod1[0]::{{impl}}[1]::associated_fn[0]<char, &str> @@ methods_are_with_self_type.volatile[WeakODR]
//~ MONO_ITEM fn mod1::<impl SomeGenericType<char, &str>>::associated_fn @@ methods_are_with_self_type.volatile[External]
SomeGenericType::associated_fn('c', "&str");
//~ MONO_ITEM fn methods_are_with_self_type::{{impl}}[0]::foo[0]<methods_are_with_self_type::type1[0]::Struct[0]> @@ methods_are_with_self_type-type1.volatile[WeakODR]
//~ MONO_ITEM fn <type1::Struct as Trait>::foo @@ methods_are_with_self_type-type1.volatile[External]
type1::Struct.foo();
//~ MONO_ITEM fn methods_are_with_self_type::{{impl}}[0]::foo[0]<methods_are_with_self_type::type2[0]::Struct[0]> @@ methods_are_with_self_type-type2.volatile[WeakODR]
//~ MONO_ITEM fn <type2::Struct as Trait>::foo @@ methods_are_with_self_type-type2.volatile[External]
type2::Struct.foo();
//~ MONO_ITEM fn methods_are_with_self_type::Trait[0]::default[0]<methods_are_with_self_type::type1[0]::Struct[0]> @@ methods_are_with_self_type-type1.volatile[WeakODR]
//~ MONO_ITEM fn <type1::Struct as Trait>::default @@ methods_are_with_self_type-type1.volatile[External]
type1::Struct.default();
//~ MONO_ITEM fn methods_are_with_self_type::Trait[0]::default[0]<methods_are_with_self_type::type2[0]::Struct[0]> @@ methods_are_with_self_type-type2.volatile[WeakODR]
//~ MONO_ITEM fn <type2::Struct as Trait>::default @@ methods_are_with_self_type-type2.volatile[External]
type2::Struct.default();
0
}
//~ MONO_ITEM drop-glue i8