// compile-flags: -O -Zmerge-functions=disabled // ignore-debug (the extra assertions get in the way) #![crate_type = "lib"] use std::num::{NonZeroI16, NonZeroU32}; // #71602 reported a simple array comparison just generating a loop. // This was originally fixed by ensuring it generates a single bcmp, // but we now generate it as a load+icmp instead. `is_zero_slice` was // tweaked to still test the case of comparison against a slice, // and `is_zero_array` tests the new array-specific behaviour. // The optimization was then extended to short slice-to-array comparisons, // so the first test here now has a long slice to still get the bcmp. // CHECK-LABEL: @is_zero_slice_long #[no_mangle] pub fn is_zero_slice_long(data: &[u8; 456]) -> bool { // CHECK: %[[BCMP:.+]] = tail call i32 @{{bcmp|memcmp}}({{.+}}) // CHECK-NEXT: %[[EQ:.+]] = icmp eq i32 %[[BCMP]], 0 // CHECK-NEXT: ret i1 %[[EQ]] &data[..] == [0; 456] } // CHECK-LABEL: @is_zero_slice_short #[no_mangle] pub fn is_zero_slice_short(data: &[u8; 4]) -> bool { // CHECK: %[[LOAD:.+]] = load i32, ptr %{{.+}}, align 1 // CHECK-NEXT: %[[EQ:.+]] = icmp eq i32 %[[LOAD]], 0 // CHECK-NEXT: ret i1 %[[EQ]] &data[..] == [0; 4] } // CHECK-LABEL: @is_zero_array #[no_mangle] pub fn is_zero_array(data: &[u8; 4]) -> bool { // CHECK: %[[LOAD:.+]] = load i32, ptr %{{.+}}, align 1 // CHECK-NEXT: %[[EQ:.+]] = icmp eq i32 %[[LOAD]], 0 // CHECK-NEXT: ret i1 %[[EQ]] *data == [0; 4] } // The following test the extra specializations to make sure that slice // equality for non-byte types also just emit a `bcmp`, not a loop. // CHECK-LABEL: @eq_slice_of_nested_u8( // CHECK-SAME: [[USIZE:i16|i32|i64]] noundef %x.1 // CHECK-SAME: [[USIZE]] noundef %y.1 #[no_mangle] fn eq_slice_of_nested_u8(x: &[[u8; 3]], y: &[[u8; 3]]) -> bool { // CHECK: icmp eq [[USIZE]] %x.1, %y.1 // CHECK: %[[BYTES:.+]] = mul nsw [[USIZE]] %x.1, 3 // CHECK: tail call{{( noundef)?}} i32 @{{bcmp|memcmp}}(ptr // CHECK-SAME: , [[USIZE]]{{( noundef)?}} %[[BYTES]]) x == y } // CHECK-LABEL: @eq_slice_of_i32( // CHECK-SAME: [[USIZE:i16|i32|i64]] noundef %x.1 // CHECK-SAME: [[USIZE]] noundef %y.1 #[no_mangle] fn eq_slice_of_i32(x: &[i32], y: &[i32]) -> bool { // CHECK: icmp eq [[USIZE]] %x.1, %y.1 // CHECK: %[[BYTES:.+]] = shl nsw [[USIZE]] %x.1, 2 // CHECK: tail call{{( noundef)?}} i32 @{{bcmp|memcmp}}(ptr // CHECK-SAME: , [[USIZE]]{{( noundef)?}} %[[BYTES]]) x == y } // CHECK-LABEL: @eq_slice_of_nonzero( // CHECK-SAME: [[USIZE:i16|i32|i64]] noundef %x.1 // CHECK-SAME: [[USIZE]] noundef %y.1 #[no_mangle] fn eq_slice_of_nonzero(x: &[NonZeroU32], y: &[NonZeroU32]) -> bool { // CHECK: icmp eq [[USIZE]] %x.1, %y.1 // CHECK: %[[BYTES:.+]] = shl nsw [[USIZE]] %x.1, 2 // CHECK: tail call{{( noundef)?}} i32 @{{bcmp|memcmp}}(ptr // CHECK-SAME: , [[USIZE]]{{( noundef)?}} %[[BYTES]]) x == y } // CHECK-LABEL: @eq_slice_of_option_of_nonzero( // CHECK-SAME: [[USIZE:i16|i32|i64]] noundef %x.1 // CHECK-SAME: [[USIZE]] noundef %y.1 #[no_mangle] fn eq_slice_of_option_of_nonzero(x: &[Option], y: &[Option]) -> bool { // CHECK: icmp eq [[USIZE]] %x.1, %y.1 // CHECK: %[[BYTES:.+]] = shl nsw [[USIZE]] %x.1, 1 // CHECK: tail call{{( noundef)?}} i32 @{{bcmp|memcmp}}(ptr // CHECK-SAME: , [[USIZE]]{{( noundef)?}} %[[BYTES]]) x == y }