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e91f937779
The tests show that the code generation currently uses the least significant bits of <iX x N> vector masks when converting to <i1 xN>. This leads to an additional left shift operation in the assembly for x86, since mask operations on x86 operate based on the most significant bit. On aarch64 the left shift is followed by a comparison against zero, which repeats the sign bit across the whole lane. The exception, which does not introduce an unneeded shift, is simd_bitmask, because the code generation already shifts before truncating. By using the "C" calling convention the tests should be stable regarding changes in register allocation, but it is possible that future llvm updates will require updating some of the checks. This additional instruction would be removed by the fix in #104693, which uses the most significant bit for all mask operations.
87 lines
2.7 KiB
Rust
87 lines
2.7 KiB
Rust
//@ revisions: x86-avx2 x86-avx512
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//@ [x86-avx2] compile-flags: --target=x86_64-unknown-linux-gnu -C llvm-args=-x86-asm-syntax=intel
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//@ [x86-avx2] compile-flags: -C target-feature=+avx2
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//@ [x86-avx2] needs-llvm-components: x86
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//@ [x86-avx512] compile-flags: --target=x86_64-unknown-linux-gnu -C llvm-args=-x86-asm-syntax=intel
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//@ [x86-avx512] compile-flags: -C target-feature=+avx512f,+avx512vl,+avx512bw,+avx512dq
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//@ [x86-avx512] needs-llvm-components: x86
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//@ assembly-output: emit-asm
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//@ compile-flags: --crate-type=lib -O
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#![feature(no_core, lang_items, repr_simd, intrinsics)]
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#![no_core]
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#![allow(non_camel_case_types)]
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// Because we don't have core yet.
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#[lang = "sized"]
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pub trait Sized {}
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#[lang = "copy"]
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trait Copy {}
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#[repr(simd)]
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pub struct i8x16([i8; 16]);
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#[repr(simd)]
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pub struct m8x16([i8; 16]);
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#[repr(simd)]
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pub struct f32x8([f32; 8]);
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#[repr(simd)]
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pub struct m32x8([i32; 8]);
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#[repr(simd)]
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pub struct f64x4([f64; 4]);
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#[repr(simd)]
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pub struct m64x4([i64; 4]);
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extern "rust-intrinsic" {
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fn simd_masked_store<M, P, T>(mask: M, pointer: P, values: T);
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}
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// CHECK-LABEL: store_i8x16
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#[no_mangle]
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pub unsafe extern "C" fn store_i8x16(mask: m8x16, pointer: *mut i8, value: i8x16) {
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// Since avx2 supports no masked stores for bytes, the code tests each individual bit
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// and jumps to code that extracts individual bytes to memory.
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// x86-avx2: vpsllw xmm0, xmm0, 7
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// x86-avx2-NEXT: vpmovmskb eax, xmm0
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// x86-avx2-NEXT: test al, 1
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// x86-avx2-NEXT: jne
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// x86-avx2-NEXT: test al, 2
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// x86-avx2-NEXT: jne
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// x86-avx2-DAG: vpextrb byte ptr [rdi + 1], xmm1, 1
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// x86-avx2-DAG: vpextrb byte ptr [rdi], xmm1, 0
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//
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// x86-avx512: vpsllw xmm0, xmm0, 7
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// x86-avx512-NEXT: vpmovb2m k1, xmm0
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// x86-avx512-NEXT: vmovdqu8 xmmword ptr [rdi] {k1}, xmm1
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simd_masked_store(mask, pointer, value)
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}
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// CHECK-LABEL: store_f32x8
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#[no_mangle]
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pub unsafe extern "C" fn store_f32x8(mask: m32x8, pointer: *mut f32, value: f32x8) {
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// x86-avx2: vpslld ymm0, ymm0, 31
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// x86-avx2-NEXT: vmaskmovps ymmword ptr [rdi], ymm0, ymm1
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//
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// x86-avx512: vpslld ymm0, ymm0, 31
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// x86-avx512-NEXT: vpmovd2m k1, ymm0
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// x86-avx512-NEXT: vmovups ymmword ptr [rdi] {k1}, ymm1
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simd_masked_store(mask, pointer, value)
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}
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// CHECK-LABEL: store_f64x4
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#[no_mangle]
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pub unsafe extern "C" fn store_f64x4(mask: m64x4, pointer: *mut f64, value: f64x4) {
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// x86-avx2: vpsllq ymm0, ymm0, 63
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// x86-avx2-NEXT: vmaskmovpd ymmword ptr [rdi], ymm0, ymm1
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//
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// x86-avx512: vpsllq ymm0, ymm0, 63
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// x86-avx512-NEXT: vpmovq2m k1, ymm0
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// x86-avx512-NEXT: vmovupd ymmword ptr [rdi] {k1}, ymm1
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simd_masked_store(mask, pointer, value)
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}
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