rust/tests/codegen/match-optimized.rs

//@ compile-flags: -C no-prepopulate-passes -O

#![crate_type = "lib"]

pub enum E {
    A,
    B,
    C,
}

// CHECK-LABEL: @exhaustive_match
#[no_mangle]
pub fn exhaustive_match(e: E) -> u8 {
    // CHECK: switch{{.*}}, label %[[OTHERWISE:[a-zA-Z0-9_]+]] [
    // CHECK-NEXT: i[[TY:[0-9]+]] [[DISCR:[0-9]+]], label %[[A:[a-zA-Z0-9_]+]]
    // CHECK-NEXT: i[[TY:[0-9]+]] [[DISCR:[0-9]+]], label %[[B:[a-zA-Z0-9_]+]]
    // CHECK-NEXT: i[[TY:[0-9]+]] [[DISCR:[0-9]+]], label %[[C:[a-zA-Z0-9_]+]]
    // CHECK-NEXT: ]
    // CHECK: [[OTHERWISE]]:
    // CHECK-NEXT: unreachable
    //
    // CHECK: [[A]]:
    // CHECK-NEXT: store i8 0, ptr %_0, align 1
    // CHECK-NEXT: br label %[[EXIT:[a-zA-Z0-9_]+]]
    // CHECK: [[B]]:
    // CHECK-NEXT: store i8 1, ptr %_0, align 1
    // CHECK-NEXT: br label %[[EXIT]]
    // CHECK: [[C]]:
    // CHECK-NEXT: store i8 3, ptr %_0, align 1
    // CHECK-NEXT: br label %[[EXIT]]
    match e {
        E::A => 0,
        E::B => 1,
        E::C => 3,
    }
}

#[repr(u16)]
pub enum E2 {
    A = 13,
    B = 42,
}

// For optimized code we produce a switch with an unreachable target as the `otherwise` so LLVM
// knows the possible values. Compare with `tests/codegen/match-unoptimized.rs`.

// CHECK-LABEL: @exhaustive_match_2
#[no_mangle]
pub fn exhaustive_match_2(e: E2) -> u8 {
    // CHECK: switch i16 %{{.+}}, label %[[UNREACH:.+]] [
    // CHECK-NEXT: i16 13,
    // CHECK-NEXT: i16 42,
    // CHECK-NEXT: ]
    // CHECK: [[UNREACH]]:
    // CHECK-NEXT: unreachable
    match e {
        E2::A => 0,
        E2::B => 1,
    }
}
Use `br` instead of `switch` in more cases. `codegen_switchint_terminator` already uses `br` instead of `switch` when there is one normal target plus the `otherwise` target. But there's another common case with two normal targets and an `otherwise` target that points to an empty unreachable BB. This comes up a lot when switching on the tags of enums that use niches. The pattern looks like this: ``` bb1: ; preds = %bb6 %3 = load i8, ptr %_2, align 1, !range !9, !noundef !4 %4 = sub i8 %3, 2 %5 = icmp eq i8 %4, 0 %_6 = select i1 %5, i64 0, i64 1 switch i64 %_6, label %bb3 [ i64 0, label %bb4 i64 1, label %bb2 ] bb3: ; preds = %bb1 unreachable ``` This commit adds code to convert the `switch` to a `br`: ``` bb1: ; preds = %bb6 %3 = load i8, ptr %_2, align 1, !range !9, !noundef !4 %4 = sub i8 %3, 2 %5 = icmp eq i8 %4, 0 %_6 = select i1 %5, i64 0, i64 1 %6 = icmp eq i64 %_6, 0 br i1 %6, label %bb4, label %bb2 bb3: ; No predecessors! unreachable ``` This has a surprisingly large effect on compile times, with reductions of 5% on debug builds of some crates. The reduction is all due to LLVM taking less time. Maybe LLVM is just much better at handling `br` than `switch`. The resulting code is still suboptimal. - The `icmp`, `select`, `icmp` sequence is silly, converting an `i1` to an `i64` and back to an `i1`. But with the current code structure it's hard to avoid, and LLVM will easily clean it up, in opt builds at least. - `bb3` is usually now truly dead code (though not always, so it can't be removed universally). 2022-10-20 15:59:07 +08:00			`//@ compile-flags: -C no-prepopulate-passes -O`

			`#![crate_type = "lib"]`

			`pub enum E {`
			`A,`
			`B,`
			`C,`
			`}`

			`// CHECK-LABEL: @exhaustive_match`
			`#[no_mangle]`
			`pub fn exhaustive_match(e: E) -> u8 {`
Run rustfmt on `tests/codegen/`. Except for `simd-intrinsic/`, which has a lot of files containing multiple types like `u8x64` which really are better when hand-formatted. There is a surprising amount of two-space indenting in this directory. Non-trivial changes: - `rustfmt::skip` needed in `debug-column.rs` to preserve meaning of the test. - `rustfmt::skip` used in a few places where hand-formatting read more nicely: `enum/enum-match.rs` - Line number adjustments needed for the expected output of `debug-column.rs` and `coroutine-debug.rs`. 2024-05-29 12:11:20 +08:00			`// CHECK: switch{{.*}}, label %[[OTHERWISE:[a-zA-Z0-9_]+]] [`
			`// CHECK-NEXT: i[[TY:[0-9]+]] [[DISCR:[0-9]+]], label %[[A:[a-zA-Z0-9_]+]]`
			`// CHECK-NEXT: i[[TY:[0-9]+]] [[DISCR:[0-9]+]], label %[[B:[a-zA-Z0-9_]+]]`
			`// CHECK-NEXT: i[[TY:[0-9]+]] [[DISCR:[0-9]+]], label %[[C:[a-zA-Z0-9_]+]]`
			`// CHECK-NEXT: ]`
			`// CHECK: [[OTHERWISE]]:`
			`// CHECK-NEXT: unreachable`
			`//`
			`// CHECK: [[A]]:`
			`// CHECK-NEXT: store i8 0, ptr %_0, align 1`
			`// CHECK-NEXT: br label %[[EXIT:[a-zA-Z0-9_]+]]`
			`// CHECK: [[B]]:`
			`// CHECK-NEXT: store i8 1, ptr %_0, align 1`
			`// CHECK-NEXT: br label %[[EXIT]]`
			`// CHECK: [[C]]:`
			`// CHECK-NEXT: store i8 3, ptr %_0, align 1`
			`// CHECK-NEXT: br label %[[EXIT]]`
Use `br` instead of `switch` in more cases. `codegen_switchint_terminator` already uses `br` instead of `switch` when there is one normal target plus the `otherwise` target. But there's another common case with two normal targets and an `otherwise` target that points to an empty unreachable BB. This comes up a lot when switching on the tags of enums that use niches. The pattern looks like this: ``` bb1: ; preds = %bb6 %3 = load i8, ptr %_2, align 1, !range !9, !noundef !4 %4 = sub i8 %3, 2 %5 = icmp eq i8 %4, 0 %_6 = select i1 %5, i64 0, i64 1 switch i64 %_6, label %bb3 [ i64 0, label %bb4 i64 1, label %bb2 ] bb3: ; preds = %bb1 unreachable ``` This commit adds code to convert the `switch` to a `br`: ``` bb1: ; preds = %bb6 %3 = load i8, ptr %_2, align 1, !range !9, !noundef !4 %4 = sub i8 %3, 2 %5 = icmp eq i8 %4, 0 %_6 = select i1 %5, i64 0, i64 1 %6 = icmp eq i64 %_6, 0 br i1 %6, label %bb4, label %bb2 bb3: ; No predecessors! unreachable ``` This has a surprisingly large effect on compile times, with reductions of 5% on debug builds of some crates. The reduction is all due to LLVM taking less time. Maybe LLVM is just much better at handling `br` than `switch`. The resulting code is still suboptimal. - The `icmp`, `select`, `icmp` sequence is silly, converting an `i1` to an `i64` and back to an `i1`. But with the current code structure it's hard to avoid, and LLVM will easily clean it up, in opt builds at least. - `bb3` is usually now truly dead code (though not always, so it can't be removed universally). 2022-10-20 15:59:07 +08:00			`match e {`
			`E::A => 0,`
			`E::B => 1,`
Transforms match into an assignment statement 2024-02-20 22:07:09 +08:00			`E::C => 3,`
Use `br` instead of `switch` in more cases. `codegen_switchint_terminator` already uses `br` instead of `switch` when there is one normal target plus the `otherwise` target. But there's another common case with two normal targets and an `otherwise` target that points to an empty unreachable BB. This comes up a lot when switching on the tags of enums that use niches. The pattern looks like this: ``` bb1: ; preds = %bb6 %3 = load i8, ptr %_2, align 1, !range !9, !noundef !4 %4 = sub i8 %3, 2 %5 = icmp eq i8 %4, 0 %_6 = select i1 %5, i64 0, i64 1 switch i64 %_6, label %bb3 [ i64 0, label %bb4 i64 1, label %bb2 ] bb3: ; preds = %bb1 unreachable ``` This commit adds code to convert the `switch` to a `br`: ``` bb1: ; preds = %bb6 %3 = load i8, ptr %_2, align 1, !range !9, !noundef !4 %4 = sub i8 %3, 2 %5 = icmp eq i8 %4, 0 %_6 = select i1 %5, i64 0, i64 1 %6 = icmp eq i64 %_6, 0 br i1 %6, label %bb4, label %bb2 bb3: ; No predecessors! unreachable ``` This has a surprisingly large effect on compile times, with reductions of 5% on debug builds of some crates. The reduction is all due to LLVM taking less time. Maybe LLVM is just much better at handling `br` than `switch`. The resulting code is still suboptimal. - The `icmp`, `select`, `icmp` sequence is silly, converting an `i1` to an `i64` and back to an `i1`. But with the current code structure it's hard to avoid, and LLVM will easily clean it up, in opt builds at least. - `bb3` is usually now truly dead code (though not always, so it can't be removed universally). 2022-10-20 15:59:07 +08:00			`}`
			`}`

			`#[repr(u16)]`
			`pub enum E2 {`
			`A = 13,`
			`B = 42,`
			`}`

			// For optimized code we produce a switch with an unreachable target as the `otherwise` so LLVM
Change `src/test` to `tests` in source files, fix tidy and tests 2023-01-05 16:45:44 +08:00			// knows the possible values. Compare with `tests/codegen/match-unoptimized.rs`.
Use `br` instead of `switch` in more cases. `codegen_switchint_terminator` already uses `br` instead of `switch` when there is one normal target plus the `otherwise` target. But there's another common case with two normal targets and an `otherwise` target that points to an empty unreachable BB. This comes up a lot when switching on the tags of enums that use niches. The pattern looks like this: ``` bb1: ; preds = %bb6 %3 = load i8, ptr %_2, align 1, !range !9, !noundef !4 %4 = sub i8 %3, 2 %5 = icmp eq i8 %4, 0 %_6 = select i1 %5, i64 0, i64 1 switch i64 %_6, label %bb3 [ i64 0, label %bb4 i64 1, label %bb2 ] bb3: ; preds = %bb1 unreachable ``` This commit adds code to convert the `switch` to a `br`: ``` bb1: ; preds = %bb6 %3 = load i8, ptr %_2, align 1, !range !9, !noundef !4 %4 = sub i8 %3, 2 %5 = icmp eq i8 %4, 0 %_6 = select i1 %5, i64 0, i64 1 %6 = icmp eq i64 %_6, 0 br i1 %6, label %bb4, label %bb2 bb3: ; No predecessors! unreachable ``` This has a surprisingly large effect on compile times, with reductions of 5% on debug builds of some crates. The reduction is all due to LLVM taking less time. Maybe LLVM is just much better at handling `br` than `switch`. The resulting code is still suboptimal. - The `icmp`, `select`, `icmp` sequence is silly, converting an `i1` to an `i64` and back to an `i1`. But with the current code structure it's hard to avoid, and LLVM will easily clean it up, in opt builds at least. - `bb3` is usually now truly dead code (though not always, so it can't be removed universally). 2022-10-20 15:59:07 +08:00
			`// CHECK-LABEL: @exhaustive_match_2`
			`#[no_mangle]`
			`pub fn exhaustive_match_2(e: E2) -> u8 {`
			`// CHECK: switch i16 %{{.+}}, label %[[UNREACH:.+]] [`
			`// CHECK-NEXT: i16 13,`
			`// CHECK-NEXT: i16 42,`
			`// CHECK-NEXT: ]`
			`// CHECK: [[UNREACH]]:`
			`// CHECK-NEXT: unreachable`
			`match e {`
			`E2::A => 0,`
			`E2::B => 1,`
			`}`
			`}`