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123 lines
5.1 KiB
Rust
123 lines
5.1 KiB
Rust
//@ compile-flags: -C opt-level=1 -Z merge-functions=disabled
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//@ only-x86_64
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#![crate_type = "lib"]
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use std::cmp::Ordering;
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type TwoTuple = (i16, u16);
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//
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// The operators are all overridden directly, so should optimize easily.
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//
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// slt-vs-sle and sgt-vs-sge don't matter because they're only used in the side
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// of the select where we know the values are not equal, and thus the tests
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// use a regex to allow either, since unimportant changes to the implementation
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// sometimes result in changing what LLVM decides to emit for this.
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//
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// CHECK-LABEL: @check_lt_direct
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// CHECK-SAME: (i16 noundef %[[A0:.+]], i16 noundef %[[A1:.+]], i16 noundef %[[B0:.+]], i16 noundef %[[B1:.+]])
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#[no_mangle]
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pub fn check_lt_direct(a: TwoTuple, b: TwoTuple) -> bool {
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// CHECK-DAG: %[[EQ:.+]] = icmp eq i16 %[[A0]], %[[B0]]
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// CHECK-DAG: %[[CMP0:.+]] = icmp {{slt|sle}} i16 %[[A0]], %[[B0]]
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// CHECK-DAG: %[[CMP1:.+]] = icmp ult i16 %[[A1]], %[[B1]]
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// CHECK: %[[R:.+]] = select i1 %[[EQ]], i1 %[[CMP1]], i1 %[[CMP0]]
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// CHECK: ret i1 %[[R]]
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a < b
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}
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// CHECK-LABEL: @check_le_direct
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// CHECK-SAME: (i16 noundef %[[A0:.+]], i16 noundef %[[A1:.+]], i16 noundef %[[B0:.+]], i16 noundef %[[B1:.+]])
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#[no_mangle]
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pub fn check_le_direct(a: TwoTuple, b: TwoTuple) -> bool {
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// CHECK-DAG: %[[EQ:.+]] = icmp eq i16 %[[A0]], %[[B0]]
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// CHECK-DAG: %[[CMP0:.+]] = icmp {{slt|sle}} i16 %[[A0]], %[[B0]]
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// CHECK-DAG: %[[CMP1:.+]] = icmp ule i16 %[[A1]], %[[B1]]
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// CHECK: %[[R:.+]] = select i1 %[[EQ]], i1 %[[CMP1]], i1 %[[CMP0]]
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// CHECK: ret i1 %[[R]]
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a <= b
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}
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// CHECK-LABEL: @check_gt_direct
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// CHECK-SAME: (i16 noundef %[[A0:.+]], i16 noundef %[[A1:.+]], i16 noundef %[[B0:.+]], i16 noundef %[[B1:.+]])
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#[no_mangle]
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pub fn check_gt_direct(a: TwoTuple, b: TwoTuple) -> bool {
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// CHECK-DAG: %[[EQ:.+]] = icmp eq i16 %[[A0]], %[[B0]]
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// CHECK-DAG: %[[CMP0:.+]] = icmp {{sgt|sge}} i16 %[[A0]], %[[B0]]
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// CHECK-DAG: %[[CMP1:.+]] = icmp ugt i16 %[[A1]], %[[B1]]
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// CHECK: %[[R:.+]] = select i1 %[[EQ]], i1 %[[CMP1]], i1 %[[CMP0]]
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// CHECK: ret i1 %[[R]]
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a > b
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}
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// CHECK-LABEL: @check_ge_direct
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// CHECK-SAME: (i16 noundef %[[A0:.+]], i16 noundef %[[A1:.+]], i16 noundef %[[B0:.+]], i16 noundef %[[B1:.+]])
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#[no_mangle]
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pub fn check_ge_direct(a: TwoTuple, b: TwoTuple) -> bool {
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// CHECK-DAG: %[[EQ:.+]] = icmp eq i16 %[[A0]], %[[B0]]
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// CHECK-DAG: %[[CMP0:.+]] = icmp {{sgt|sge}} i16 %[[A0]], %[[B0]]
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// CHECK-DAG: %[[CMP1:.+]] = icmp uge i16 %[[A1]], %[[B1]]
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// CHECK: %[[R:.+]] = select i1 %[[EQ]], i1 %[[CMP1]], i1 %[[CMP0]]
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// CHECK: ret i1 %[[R]]
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a >= b
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}
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//
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// These ones are harder, since there are more intermediate values to remove.
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//
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// `<` seems to be getting lucky right now, so test that doesn't regress.
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//
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// The others, however, aren't managing to optimize away the extra `select`s yet.
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// See <https://github.com/rust-lang/rust/issues/106107> for more about this.
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//
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// CHECK-LABEL: @check_lt_via_cmp
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// CHECK-SAME: (i16 noundef %[[A0:.+]], i16 noundef %[[A1:.+]], i16 noundef %[[B0:.+]], i16 noundef %[[B1:.+]])
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#[no_mangle]
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pub fn check_lt_via_cmp(a: TwoTuple, b: TwoTuple) -> bool {
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// CHECK-DAG: %[[EQ:.+]] = icmp eq i16 %[[A0]], %[[B0]]
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// CHECK-DAG: %[[CMP0:.+]] = icmp slt i16 %[[A0]], %[[B0]]
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// CHECK-DAG: %[[CMP1:.+]] = icmp ult i16 %[[A1]], %[[B1]]
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// CHECK: %[[R:.+]] = select i1 %[[EQ]], i1 %[[CMP1]], i1 %[[CMP0]]
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// CHECK: ret i1 %[[R]]
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Ord::cmp(&a, &b).is_lt()
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}
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// CHECK-LABEL: @check_le_via_cmp
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// CHECK-SAME: (i16 noundef %[[A0:.+]], i16 noundef %[[A1:.+]], i16 noundef %[[B0:.+]], i16 noundef %[[B1:.+]])
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#[no_mangle]
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pub fn check_le_via_cmp(a: TwoTuple, b: TwoTuple) -> bool {
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// FIXME-CHECK-DAG: %[[EQ:.+]] = icmp eq i16 %[[A0]], %[[B0]]
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// FIXME-CHECK-DAG: %[[CMP0:.+]] = icmp sle i16 %[[A0]], %[[B0]]
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// FIXME-CHECK-DAG: %[[CMP1:.+]] = icmp ule i16 %[[A1]], %[[B1]]
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// FIXME-CHECK: %[[R:.+]] = select i1 %[[EQ]], i1 %[[CMP1]], i1 %[[CMP0]]
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// FIXME-CHECK: ret i1 %[[R]]
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Ord::cmp(&a, &b).is_le()
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}
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// CHECK-LABEL: @check_gt_via_cmp
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// CHECK-SAME: (i16 noundef %[[A0:.+]], i16 noundef %[[A1:.+]], i16 noundef %[[B0:.+]], i16 noundef %[[B1:.+]])
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#[no_mangle]
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pub fn check_gt_via_cmp(a: TwoTuple, b: TwoTuple) -> bool {
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// FIXME-CHECK-DAG: %[[EQ:.+]] = icmp eq i16 %[[A0]], %[[B0]]
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// FIXME-CHECK-DAG: %[[CMP0:.+]] = icmp sgt i16 %[[A0]], %[[B0]]
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// FIXME-CHECK-DAG: %[[CMP1:.+]] = icmp ugt i16 %[[A1]], %[[B1]]
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// FIXME-CHECK: %[[R:.+]] = select i1 %[[EQ]], i1 %[[CMP1]], i1 %[[CMP0]]
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// FIXME-CHECK: ret i1 %[[R]]
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Ord::cmp(&a, &b).is_gt()
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}
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// CHECK-LABEL: @check_ge_via_cmp
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// CHECK-SAME: (i16 noundef %[[A0:.+]], i16 noundef %[[A1:.+]], i16 noundef %[[B0:.+]], i16 noundef %[[B1:.+]])
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#[no_mangle]
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pub fn check_ge_via_cmp(a: TwoTuple, b: TwoTuple) -> bool {
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// FIXME-CHECK-DAG: %[[EQ:.+]] = icmp eq i16 %[[A0]], %[[B0]]
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// FIXME-CHECK-DAG: %[[CMP0:.+]] = icmp sge i16 %[[A0]], %[[B0]]
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// FIXME-CHECK-DAG: %[[CMP1:.+]] = icmp uge i16 %[[A1]], %[[B1]]
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// FIXME-CHECK: %[[R:.+]] = select i1 %[[EQ]], i1 %[[CMP1]], i1 %[[CMP0]]
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// FIXME-CHECK: ret i1 %[[R]]
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Ord::cmp(&a, &b).is_ge()
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}
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