mirror of https://github.com/rust-lang/rust.git
use ptradd for vtable indexing
Like field offsets, these are always constant.
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76ee6fc926
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@ -165,14 +165,11 @@ pub fn unsized_info<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>>(
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cx.tcx().vtable_trait_upcasting_coercion_new_vptr_slot((source, target));
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if let Some(entry_idx) = vptr_entry_idx {
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let ptr_ty = cx.type_ptr();
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let ptr_align = cx.tcx().data_layout.pointer_align.abi;
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let gep = bx.inbounds_gep(
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ptr_ty,
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old_info,
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&[bx.const_usize(u64::try_from(entry_idx).unwrap())],
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);
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let new_vptr = bx.load(ptr_ty, gep, ptr_align);
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let ptr_size = bx.data_layout().pointer_size;
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let ptr_align = bx.data_layout().pointer_align.abi;
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let vtable_byte_offset = u64::try_from(entry_idx).unwrap() * ptr_size.bytes();
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let gep = bx.inbounds_ptradd(old_info, bx.const_usize(vtable_byte_offset));
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let new_vptr = bx.load(bx.type_ptr(), gep, ptr_align);
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bx.nonnull_metadata(new_vptr);
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// VTable loads are invariant.
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bx.set_invariant_load(new_vptr);
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@ -20,9 +20,13 @@ impl<'a, 'tcx> VirtualIndex {
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ty: Ty<'tcx>,
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fn_abi: &FnAbi<'tcx, Ty<'tcx>>,
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) -> Bx::Value {
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// Load the data pointer from the object.
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// Load the function pointer from the object.
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debug!("get_fn({llvtable:?}, {ty:?}, {self:?})");
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let llty = bx.fn_ptr_backend_type(fn_abi);
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let ptr_size = bx.data_layout().pointer_size;
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let ptr_align = bx.data_layout().pointer_align.abi;
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let vtable_byte_offset = self.0 * ptr_size.bytes();
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if bx.cx().sess().opts.unstable_opts.virtual_function_elimination
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&& bx.cx().sess().lto() == Lto::Fat
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@ -30,12 +34,10 @@ impl<'a, 'tcx> VirtualIndex {
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let typeid = bx
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.typeid_metadata(typeid_for_trait_ref(bx.tcx(), expect_dyn_trait_in_self(ty)))
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.unwrap();
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let vtable_byte_offset = self.0 * bx.data_layout().pointer_size.bytes();
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let func = bx.type_checked_load(llvtable, vtable_byte_offset, typeid);
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func
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} else {
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let ptr_align = bx.tcx().data_layout.pointer_align.abi;
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let gep = bx.inbounds_gep(llty, llvtable, &[bx.const_usize(self.0)]);
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let gep = bx.inbounds_ptradd(llvtable, bx.const_usize(vtable_byte_offset));
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let ptr = bx.load(llty, gep, ptr_align);
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bx.nonnull_metadata(ptr);
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// VTable loads are invariant.
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@ -53,9 +55,12 @@ impl<'a, 'tcx> VirtualIndex {
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debug!("get_int({:?}, {:?})", llvtable, self);
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let llty = bx.type_isize();
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let usize_align = bx.tcx().data_layout.pointer_align.abi;
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let gep = bx.inbounds_gep(llty, llvtable, &[bx.const_usize(self.0)]);
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let ptr = bx.load(llty, gep, usize_align);
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let ptr_size = bx.data_layout().pointer_size;
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let ptr_align = bx.data_layout().pointer_align.abi;
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let vtable_byte_offset = self.0 * ptr_size.bytes();
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let gep = bx.inbounds_ptradd(llvtable, bx.const_usize(vtable_byte_offset));
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let ptr = bx.load(llty, gep, ptr_align);
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// VTable loads are invariant.
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bx.set_invariant_load(ptr);
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ptr
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@ -25,9 +25,9 @@ struct Dst<T: ?Sized> {
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pub fn dst_dyn_trait_offset(s: &Dst<dyn Drop>) -> &dyn Drop {
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// The alignment of dyn trait is unknown, so we compute the offset based on align from the vtable.
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// CHECK: [[SIZE_PTR:%[0-9]+]] = getelementptr inbounds {{.+}} [[VTABLE_PTR]]
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// CHECK: [[SIZE_PTR:%[0-9]+]] = getelementptr inbounds i8, ptr [[VTABLE_PTR]]
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// CHECK: load [[USIZE]], ptr [[SIZE_PTR]]
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// CHECK: [[ALIGN_PTR:%[0-9]+]] = getelementptr inbounds {{.+}} [[VTABLE_PTR]]
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// CHECK: [[ALIGN_PTR:%[0-9]+]] = getelementptr inbounds i8, ptr [[VTABLE_PTR]]
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// CHECK: load [[USIZE]], ptr [[ALIGN_PTR]]
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// CHECK: getelementptr inbounds i8, ptr [[DATA_PTR]]
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@ -0,0 +1,85 @@
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//! This file tests that we correctly generate GEP instructions for vtable upcasting.
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//@ compile-flags: -C no-prepopulate-passes -Copt-level=0
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#![crate_type = "lib"]
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#![feature(trait_upcasting)]
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pub trait Base {
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fn base(&self);
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}
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pub trait A : Base {
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fn a(&self);
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}
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pub trait B : Base {
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fn b(&self);
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}
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pub trait Diamond : A + B {
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fn diamond(&self);
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}
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// CHECK-LABEL: upcast_a_to_base
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#[no_mangle]
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pub fn upcast_a_to_base(x: &dyn A) -> &dyn Base {
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// Requires no adjustment, since its vtable is extended from `Base`.
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// CHECK: start:
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// CHECK-NEXT: insertvalue
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// CHECK-NEXT: insertvalue
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// CHECK-NEXT: ret
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x as &dyn Base
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}
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// CHECK-LABEL: upcast_b_to_base
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#[no_mangle]
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pub fn upcast_b_to_base(x: &dyn B) -> &dyn Base {
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// Requires no adjustment, since its vtable is extended from `Base`.
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// CHECK: start:
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// CHECK-NEXT: insertvalue
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// CHECK-NEXT: insertvalue
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// CHECK-NEXT: ret
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x as &dyn Base
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}
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// CHECK-LABEL: upcast_diamond_to_a
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#[no_mangle]
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pub fn upcast_diamond_to_a(x: &dyn Diamond) -> &dyn A {
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// Requires no adjustment, since its vtable is extended from `A` (as the first supertrait).
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// CHECK: start:
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// CHECK-NEXT: insertvalue
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// CHECK-NEXT: insertvalue
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// CHECK-NEXT: ret
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x as &dyn A
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}
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// CHECK-LABEL: upcast_diamond_to_b
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// CHECK-SAME: (ptr align {{[0-9]+}} [[DATA_PTR:%.+]], ptr align {{[0-9]+}} [[VTABLE_PTR:%.+]])
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#[no_mangle]
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pub fn upcast_diamond_to_b(x: &dyn Diamond) -> &dyn B {
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// Requires adjustment, since it's a non-first supertrait.
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// CHECK: start:
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// CHECK-NEXT: [[UPCAST_SLOT_PTR:%.+]] = getelementptr inbounds i8, ptr [[VTABLE_PTR]]
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// CHECK-NEXT: [[UPCAST_VTABLE_PTR:%.+]] = load ptr, ptr [[UPCAST_SLOT_PTR]]
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// CHECK-NEXT: [[FAT_PTR_1:%.+]] = insertvalue { ptr, ptr } poison, ptr [[DATA_PTR]], 0
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// CHECK-NEXT: [[FAT_PTR_2:%.+]] = insertvalue { ptr, ptr } [[FAT_PTR_1]], ptr [[UPCAST_VTABLE_PTR]], 1
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// CHECK-NEXT: ret { ptr, ptr } [[FAT_PTR_2]]
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x as &dyn B
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}
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// CHECK-LABEL: upcast_diamond_to_b
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#[no_mangle]
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pub fn upcast_diamond_to_base(x: &dyn Diamond) -> &dyn Base {
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// Requires no adjustment, since `Base` is the first supertrait of `A`,
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// which is the first supertrait of `Diamond`.
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// CHECK: start:
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// CHECK-NEXT: insertvalue
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// CHECK-NEXT: insertvalue
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// CHECK-NEXT: ret
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x as &dyn Base
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}
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