diff --git a/compiler/rustc_codegen_gcc/src/builder.rs b/compiler/rustc_codegen_gcc/src/builder.rs index 43cc46cfe68..cf1aa3f4793 100644 --- a/compiler/rustc_codegen_gcc/src/builder.rs +++ b/compiler/rustc_codegen_gcc/src/builder.rs @@ -898,26 +898,14 @@ fn checked_binop( self.gcc_checked_binop(oop, typ, lhs, rhs) } - fn alloca(&mut self, ty: Type<'gcc>, align: Align) -> RValue<'gcc> { - // FIXME(antoyo): this check that we don't call get_aligned() a second time on a type. - // Ideally, we shouldn't need to do this check. - let aligned_type = if ty == self.cx.u128_type || ty == self.cx.i128_type { - ty - } else { - ty.get_aligned(align.bytes()) - }; + fn alloca(&mut self, size: Size, align: Align) -> RValue<'gcc> { + let ty = self.cx.type_array(self.cx.type_i8(), size.bytes()).get_aligned(align.bytes()); // TODO(antoyo): It might be better to return a LValue, but fixing the rustc API is non-trivial. self.stack_var_count.set(self.stack_var_count.get() + 1); - self.current_func() - .new_local( - self.location, - aligned_type, - &format!("stack_var_{}", self.stack_var_count.get()), - ) - .get_address(self.location) + self.current_func().new_local(None, ty, &format!("stack_var_{}", self.stack_var_count.get())).get_address(None) } - fn byte_array_alloca(&mut self, _len: RValue<'gcc>, _align: Align) -> RValue<'gcc> { + fn dynamic_alloca(&mut self, _len: RValue<'gcc>, _align: Align) -> RValue<'gcc> { unimplemented!(); } diff --git a/compiler/rustc_codegen_gcc/src/intrinsic/mod.rs b/compiler/rustc_codegen_gcc/src/intrinsic/mod.rs index cebd45c09aa..0c50b2bb5fe 100644 --- a/compiler/rustc_codegen_gcc/src/intrinsic/mod.rs +++ b/compiler/rustc_codegen_gcc/src/intrinsic/mod.rs @@ -531,7 +531,7 @@ fn store( // We instead thus allocate some scratch space... let scratch_size = cast.size(bx); let scratch_align = cast.align(bx); - let llscratch = bx.alloca(cast.gcc_type(bx), scratch_align); + let llscratch = bx.alloca(scratch_size, scratch_align); bx.lifetime_start(llscratch, scratch_size); // ... where we first store the value... diff --git a/compiler/rustc_codegen_gcc/src/intrinsic/simd.rs b/compiler/rustc_codegen_gcc/src/intrinsic/simd.rs index 60361a44c2d..1d9ff257a76 100644 --- a/compiler/rustc_codegen_gcc/src/intrinsic/simd.rs +++ b/compiler/rustc_codegen_gcc/src/intrinsic/simd.rs @@ -18,7 +18,7 @@ use rustc_middle::ty::layout::HasTyCtxt; use rustc_middle::ty::{self, Ty}; use rustc_span::{sym, Span, Symbol}; -use rustc_target::abi::Align; +use rustc_target::abi::{Align, Size}; use crate::builder::Builder; #[cfg(not(feature = "master"))] @@ -558,7 +558,7 @@ macro_rules! arith_binary { let ze = bx.zext(result, bx.type_ix(expected_bytes * 8)); // Convert the integer to a byte array - let ptr = bx.alloca(bx.type_ix(expected_bytes * 8), Align::ONE); + let ptr = bx.alloca(Size::from_bytes(expected_bytes), Align::ONE); bx.store(ze, ptr, Align::ONE); let array_ty = bx.type_array(bx.type_i8(), expected_bytes); let ptr = bx.pointercast(ptr, bx.cx.type_ptr_to(array_ty)); diff --git a/compiler/rustc_codegen_llvm/src/abi.rs b/compiler/rustc_codegen_llvm/src/abi.rs index f918facc86d..68afcd08f04 100644 --- a/compiler/rustc_codegen_llvm/src/abi.rs +++ b/compiler/rustc_codegen_llvm/src/abi.rs @@ -227,7 +227,7 @@ fn store( // when passed by value, making it larger. let copy_bytes = cmp::min(scratch_size.bytes(), self.layout.size.bytes()); // Allocate some scratch space... - let llscratch = bx.alloca(cast.llvm_type(bx), scratch_align); + let llscratch = bx.alloca(scratch_size, scratch_align); bx.lifetime_start(llscratch, scratch_size); // ...store the value... bx.store(val, llscratch, scratch_align); diff --git a/compiler/rustc_codegen_llvm/src/builder.rs b/compiler/rustc_codegen_llvm/src/builder.rs index b7235972204..0956542337f 100644 --- a/compiler/rustc_codegen_llvm/src/builder.rs +++ b/compiler/rustc_codegen_llvm/src/builder.rs @@ -468,9 +468,10 @@ fn to_immediate_scalar(&mut self, val: Self::Value, scalar: abi::Scalar) -> Self val } - fn alloca(&mut self, ty: &'ll Type, align: Align) -> &'ll Value { + fn alloca(&mut self, size: Size, align: Align) -> &'ll Value { let mut bx = Builder::with_cx(self.cx); bx.position_at_start(unsafe { llvm::LLVMGetFirstBasicBlock(self.llfn()) }); + let ty = self.cx().type_array(self.cx().type_i8(), size.bytes()); unsafe { let alloca = llvm::LLVMBuildAlloca(bx.llbuilder, ty, UNNAMED); llvm::LLVMSetAlignment(alloca, align.bytes() as c_uint); @@ -478,10 +479,10 @@ fn alloca(&mut self, ty: &'ll Type, align: Align) -> &'ll Value { } } - fn byte_array_alloca(&mut self, len: &'ll Value, align: Align) -> &'ll Value { + fn dynamic_alloca(&mut self, size: &'ll Value, align: Align) -> &'ll Value { unsafe { let alloca = - llvm::LLVMBuildArrayAlloca(self.llbuilder, self.cx().type_i8(), len, UNNAMED); + llvm::LLVMBuildArrayAlloca(self.llbuilder, self.cx().type_i8(), size, UNNAMED); llvm::LLVMSetAlignment(alloca, align.bytes() as c_uint); alloca } diff --git a/compiler/rustc_codegen_llvm/src/intrinsic.rs b/compiler/rustc_codegen_llvm/src/intrinsic.rs index dc52dd156b7..9bf9c6ec0bc 100644 --- a/compiler/rustc_codegen_llvm/src/intrinsic.rs +++ b/compiler/rustc_codegen_llvm/src/intrinsic.rs @@ -18,7 +18,7 @@ use rustc_middle::ty::{self, GenericArgsRef, Ty}; use rustc_middle::{bug, span_bug}; use rustc_span::{sym, Span, Symbol}; -use rustc_target::abi::{self, Align, HasDataLayout, Primitive}; +use rustc_target::abi::{self, Align, HasDataLayout, Primitive, Size}; use rustc_target::spec::{HasTargetSpec, PanicStrategy}; use std::cmp::Ordering; @@ -638,8 +638,9 @@ fn codegen_msvc_try<'ll>( // } // // More information can be found in libstd's seh.rs implementation. + let ptr_size = bx.tcx().data_layout.pointer_size; let ptr_align = bx.tcx().data_layout.pointer_align.abi; - let slot = bx.alloca(bx.type_ptr(), ptr_align); + let slot = bx.alloca(ptr_size, ptr_align); let try_func_ty = bx.type_func(&[bx.type_ptr()], bx.type_void()); bx.invoke(try_func_ty, None, None, try_func, &[data], normal, catchswitch, None, None); @@ -909,15 +910,14 @@ fn codegen_emcc_try<'ll>( // We need to pass two values to catch_func (ptr and is_rust_panic), so // create an alloca and pass a pointer to that. + let ptr_size = bx.tcx().data_layout.pointer_size; let ptr_align = bx.tcx().data_layout.pointer_align.abi; let i8_align = bx.tcx().data_layout.i8_align.abi; - let catch_data_type = bx.type_struct(&[bx.type_ptr(), bx.type_bool()], false); - let catch_data = bx.alloca(catch_data_type, ptr_align); - let catch_data_0 = - bx.inbounds_gep(catch_data_type, catch_data, &[bx.const_usize(0), bx.const_usize(0)]); - bx.store(ptr, catch_data_0, ptr_align); - let catch_data_1 = - bx.inbounds_gep(catch_data_type, catch_data, &[bx.const_usize(0), bx.const_usize(1)]); + // Required in order for there to be no padding between the fields. + assert!(i8_align <= ptr_align); + let catch_data = bx.alloca(2 * ptr_size, ptr_align); + bx.store(ptr, catch_data, ptr_align); + let catch_data_1 = bx.inbounds_ptradd(catch_data, bx.const_usize(ptr_size.bytes())); bx.store(is_rust_panic, catch_data_1, i8_align); let catch_ty = bx.type_func(&[bx.type_ptr(), bx.type_ptr()], bx.type_void()); @@ -1363,7 +1363,7 @@ macro_rules! require_simd { let ze = bx.zext(i_, bx.type_ix(expected_bytes * 8)); // Convert the integer to a byte array - let ptr = bx.alloca(bx.type_ix(expected_bytes * 8), Align::ONE); + let ptr = bx.alloca(Size::from_bytes(expected_bytes), Align::ONE); bx.store(ze, ptr, Align::ONE); let array_ty = bx.type_array(bx.type_i8(), expected_bytes); return Ok(bx.load(array_ty, ptr, Align::ONE)); diff --git a/compiler/rustc_codegen_ssa/src/base.rs b/compiler/rustc_codegen_ssa/src/base.rs index 930b9b8c0db..ae7c0f24b40 100644 --- a/compiler/rustc_codegen_ssa/src/base.rs +++ b/compiler/rustc_codegen_ssa/src/base.rs @@ -508,7 +508,7 @@ fn get_argc_argv<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>>( let ptr_size = bx.tcx().data_layout.pointer_size; let ptr_align = bx.tcx().data_layout.pointer_align.abi; let arg_argc = bx.const_int(cx.type_isize(), 2); - let arg_argv = bx.alloca(cx.type_array(cx.type_ptr(), 2), ptr_align); + let arg_argv = bx.alloca(2 * ptr_size, ptr_align); bx.store(param_handle, arg_argv, ptr_align); let arg_argv_el1 = bx.inbounds_ptradd(arg_argv, bx.const_usize(ptr_size.bytes())); bx.store(param_system_table, arg_argv_el1, ptr_align); diff --git a/compiler/rustc_codegen_ssa/src/mir/block.rs b/compiler/rustc_codegen_ssa/src/mir/block.rs index c3137f0628e..14fae453bcc 100644 --- a/compiler/rustc_codegen_ssa/src/mir/block.rs +++ b/compiler/rustc_codegen_ssa/src/mir/block.rs @@ -1512,7 +1512,7 @@ fn codegen_argument( // when passed by value, making it larger. let copy_bytes = cmp::min(scratch_size.bytes(), arg.layout.size.bytes()); // Allocate some scratch space... - let llscratch = bx.alloca(bx.cast_backend_type(cast), scratch_align); + let llscratch = bx.alloca(scratch_size, scratch_align); bx.lifetime_start(llscratch, scratch_size); // ...memcpy the value... bx.memcpy( diff --git a/compiler/rustc_codegen_ssa/src/mir/operand.rs b/compiler/rustc_codegen_ssa/src/mir/operand.rs index ac38b91c5e0..13e3debc363 100644 --- a/compiler/rustc_codegen_ssa/src/mir/operand.rs +++ b/compiler/rustc_codegen_ssa/src/mir/operand.rs @@ -323,7 +323,7 @@ pub fn extract_field>( let llfield_ty = bx.cx().backend_type(field); // Can't bitcast an aggregate, so round trip through memory. - let llptr = bx.alloca(llfield_ty, field.align.abi); + let llptr = bx.alloca(field.size, field.align.abi); bx.store(*llval, llptr, field.align.abi); *llval = bx.load(llfield_ty, llptr, field.align.abi); } @@ -466,7 +466,7 @@ pub fn store_unsized>( let align_minus_1 = bx.sub(align, one); let size_extra = bx.add(size, align_minus_1); let min_align = Align::ONE; - let alloca = bx.byte_array_alloca(size_extra, min_align); + let alloca = bx.dynamic_alloca(size_extra, min_align); let address = bx.ptrtoint(alloca, bx.type_isize()); let neg_address = bx.neg(address); let offset = bx.and(neg_address, align_minus_1); diff --git a/compiler/rustc_codegen_ssa/src/mir/place.rs b/compiler/rustc_codegen_ssa/src/mir/place.rs index 1ec6c351e25..a4f57f25b7a 100644 --- a/compiler/rustc_codegen_ssa/src/mir/place.rs +++ b/compiler/rustc_codegen_ssa/src/mir/place.rs @@ -57,7 +57,7 @@ pub fn alloca_aligned>( align: Align, ) -> Self { assert!(layout.is_sized(), "tried to statically allocate unsized place"); - let tmp = bx.alloca(bx.cx().backend_type(layout), align); + let tmp = bx.alloca(layout.size, align); Self::new_sized_aligned(tmp, layout, align) } diff --git a/compiler/rustc_codegen_ssa/src/traits/builder.rs b/compiler/rustc_codegen_ssa/src/traits/builder.rs index c0281e75d9d..f7a3d5eaff5 100644 --- a/compiler/rustc_codegen_ssa/src/traits/builder.rs +++ b/compiler/rustc_codegen_ssa/src/traits/builder.rs @@ -144,8 +144,8 @@ fn to_immediate(&mut self, val: Self::Value, layout: TyAndLayout<'_>) -> Self::V } fn to_immediate_scalar(&mut self, val: Self::Value, scalar: Scalar) -> Self::Value; - fn alloca(&mut self, ty: Self::Type, align: Align) -> Self::Value; - fn byte_array_alloca(&mut self, len: Self::Value, align: Align) -> Self::Value; + fn alloca(&mut self, size: Size, align: Align) -> Self::Value; + fn dynamic_alloca(&mut self, size: Self::Value, align: Align) -> Self::Value; fn load(&mut self, ty: Self::Type, ptr: Self::Value, align: Align) -> Self::Value; fn volatile_load(&mut self, ty: Self::Type, ptr: Self::Value) -> Self::Value; diff --git a/tests/codegen/align-byval-alignment-mismatch.rs b/tests/codegen/align-byval-alignment-mismatch.rs index 306e3ce1358..71f2dd42ec2 100644 --- a/tests/codegen/align-byval-alignment-mismatch.rs +++ b/tests/codegen/align-byval-alignment-mismatch.rs @@ -56,7 +56,7 @@ struct Align16 { #[no_mangle] pub unsafe fn rust_to_c_increases_alignment(x: Align1) { // i686-linux: start: - // i686-linux-NEXT: [[ALLOCA:%[0-9a-z]+]] = alloca %Align1, align 4 + // i686-linux-NEXT: [[ALLOCA:%[0-9a-z]+]] = alloca [48 x i8], align 4 // i686-linux-NEXT: call void @llvm.memcpy.{{.+}}(ptr {{.*}}align 4 {{.*}}[[ALLOCA]], ptr {{.*}}align 1 {{.*}}%x // i686-linux-NEXT: call void @extern_c_align1({{.+}} [[ALLOCA]]) @@ -90,7 +90,7 @@ pub unsafe fn rust_to_c_decreases_alignment(x: Align16) { #[no_mangle] pub unsafe extern "C" fn c_to_rust_increases_alignment(x: Align16) { // i686-linux: start: - // i686-linux-NEXT: [[ALLOCA:%[0-9a-z]+]] = alloca %Align16, align 16 + // i686-linux-NEXT: [[ALLOCA:%[0-9a-z]+]] = alloca [48 x i8], align 16 // i686-linux-NEXT: call void @llvm.memcpy.{{.+}}(ptr {{.*}}align 16 {{.*}}[[ALLOCA]], ptr {{.*}}align 4 {{.*}}%0 // i686-linux-NEXT: call void @extern_rust_align16({{.+}} [[ALLOCA]]) @@ -116,7 +116,7 @@ pub unsafe fn rust_to_c_decreases_alignment(x: Align16) { #[no_mangle] pub unsafe extern "C" fn c_to_rust_ref_increases_alignment(x: Align16) { // i686-linux: start: - // i686-linux-NEXT: [[ALLOCA:%[0-9a-z]+]] = alloca %Align16, align 16 + // i686-linux-NEXT: [[ALLOCA:%[0-9a-z]+]] = alloca [48 x i8], align 16 // i686-linux-NEXT: call void @llvm.memcpy.{{.+}}(ptr {{.*}}align 16 {{.*}}[[ALLOCA]], ptr {{.*}}align 4 {{.*}}%0 // i686-linux-NEXT: call void @extern_rust_ref_align16({{.+}} [[ALLOCA]]) diff --git a/tests/codegen/align-byval.rs b/tests/codegen/align-byval.rs index c74e236f29d..3a2be2b2b9c 100644 --- a/tests/codegen/align-byval.rs +++ b/tests/codegen/align-byval.rs @@ -106,20 +106,20 @@ pub struct ForceAlign16 { pub unsafe fn call_na1(x: NaturalAlign1) { // CHECK: start: - // m68k: [[ALLOCA:%[a-z0-9+]]] = alloca %NaturalAlign1, align 1 + // m68k: [[ALLOCA:%[a-z0-9+]]] = alloca [2 x i8], align 1 // m68k: call void @natural_align_1({{.*}}byval([2 x i8]) align 1{{.*}} [[ALLOCA]]) - // wasm: [[ALLOCA:%[a-z0-9+]]] = alloca %NaturalAlign1, align 1 + // wasm: [[ALLOCA:%[a-z0-9+]]] = alloca [2 x i8], align 1 // wasm: call void @natural_align_1({{.*}}byval([2 x i8]) align 1{{.*}} [[ALLOCA]]) // x86_64-linux: call void @natural_align_1(i16 // x86_64-windows: call void @natural_align_1(i16 - // i686-linux: [[ALLOCA:%[a-z0-9+]]] = alloca %NaturalAlign1, align 4 + // i686-linux: [[ALLOCA:%[a-z0-9+]]] = alloca [2 x i8], align 4 // i686-linux: call void @natural_align_1({{.*}}byval([2 x i8]) align 4{{.*}} [[ALLOCA]]) - // i686-windows: [[ALLOCA:%[a-z0-9+]]] = alloca %NaturalAlign1, align 4 + // i686-windows: [[ALLOCA:%[a-z0-9+]]] = alloca [2 x i8], align 4 // i686-windows: call void @natural_align_1({{.*}}byval([2 x i8]) align 4{{.*}} [[ALLOCA]]) natural_align_1(x); } @@ -134,10 +134,10 @@ pub unsafe fn call_na2(x: NaturalAlign2) { // x86_64-linux-NEXT: call void @natural_align_2 // x86_64-windows-NEXT: call void @natural_align_2 - // i686-linux: [[ALLOCA:%[0-9]+]] = alloca %NaturalAlign2, align 4 + // i686-linux: [[ALLOCA:%[0-9]+]] = alloca [34 x i8], align 4 // i686-linux: call void @natural_align_2({{.*}}byval([34 x i8]) align 4{{.*}} [[ALLOCA]]) - // i686-windows: [[ALLOCA:%[0-9]+]] = alloca %NaturalAlign2, align 4 + // i686-windows: [[ALLOCA:%[0-9]+]] = alloca [34 x i8], align 4 // i686-windows: call void @natural_align_2({{.*}}byval([34 x i8]) align 4{{.*}} [[ALLOCA]]) natural_align_2(x); } diff --git a/tests/codegen/align-enum.rs b/tests/codegen/align-enum.rs index b40168d77a4..93d5a87fb30 100644 --- a/tests/codegen/align-enum.rs +++ b/tests/codegen/align-enum.rs @@ -18,7 +18,7 @@ pub struct Nested64 { // CHECK-LABEL: @align64 #[no_mangle] pub fn align64(a: u32) -> Align64 { -// CHECK: %a64 = alloca %Align64, align 64 +// CHECK: %a64 = alloca [64 x i8], align 64 // CHECK: call void @llvm.memcpy.{{.*}}(ptr align 64 %{{.*}}, ptr align 64 %{{.*}}, i{{[0-9]+}} 64, i1 false) let a64 = Align64::A(a); a64 @@ -27,7 +27,7 @@ pub fn align64(a: u32) -> Align64 { // CHECK-LABEL: @nested64 #[no_mangle] pub fn nested64(a: u8, b: u32, c: u16) -> Nested64 { -// CHECK: %n64 = alloca %Nested64, align 64 +// CHECK: %n64 = alloca [128 x i8], align 64 let n64 = Nested64 { a, b: Align64::B(b), c }; n64 } diff --git a/tests/codegen/align-struct.rs b/tests/codegen/align-struct.rs index dbbb85bee6f..e70b42b47db 100644 --- a/tests/codegen/align-struct.rs +++ b/tests/codegen/align-struct.rs @@ -26,7 +26,7 @@ pub enum Enum64 { // CHECK-LABEL: @align64 #[no_mangle] pub fn align64(i : i32) -> Align64 { -// CHECK: %a64 = alloca %Align64, align 64 +// CHECK: %a64 = alloca [64 x i8], align 64 // CHECK: call void @llvm.memcpy.{{.*}}(ptr align 64 %{{.*}}, ptr align 64 %{{.*}}, i{{[0-9]+}} 64, i1 false) let a64 = Align64(i); a64 @@ -44,7 +44,7 @@ pub fn align64_load(a: Align64) -> i32 { // CHECK-LABEL: @nested64 #[no_mangle] pub fn nested64(a: Align64, b: i32, c: i32, d: i8) -> Nested64 { -// CHECK: %n64 = alloca %Nested64, align 64 +// CHECK: %n64 = alloca [128 x i8], align 64 let n64 = Nested64 { a, b, c, d }; n64 } @@ -52,7 +52,7 @@ pub fn nested64(a: Align64, b: i32, c: i32, d: i8) -> Nested64 { // CHECK-LABEL: @enum4 #[no_mangle] pub fn enum4(a: i32) -> Enum4 { -// CHECK: %e4 = alloca %Enum4, align 4 +// CHECK: %e4 = alloca [8 x i8], align 4 let e4 = Enum4::A(a); e4 } @@ -60,7 +60,7 @@ pub fn enum4(a: i32) -> Enum4 { // CHECK-LABEL: @enum64 #[no_mangle] pub fn enum64(a: Align64) -> Enum64 { -// CHECK: %e64 = alloca %Enum64, align 64 +// CHECK: %e64 = alloca [128 x i8], align 64 let e64 = Enum64::A(a); e64 } diff --git a/tests/codegen/array-codegen.rs b/tests/codegen/array-codegen.rs index 1310e61c41d..fc272f2556c 100644 --- a/tests/codegen/array-codegen.rs +++ b/tests/codegen/array-codegen.rs @@ -18,7 +18,7 @@ #[no_mangle] pub fn array_store(a: [u8; 4], p: &mut [u8; 4]) { // CHECK-NOT: alloca - // CHECK: %[[TEMP:.+]] = alloca i32, [[TEMPALIGN:align [0-9]+]] + // CHECK: %[[TEMP:.+]] = alloca [4 x i8], [[TEMPALIGN:align [0-9]+]] // CHECK-NOT: alloca // CHECK: %a = alloca [4 x i8] // CHECK-NOT: alloca diff --git a/tests/codegen/array-map.rs b/tests/codegen/array-map.rs index 743a15989f7..f49dddcfc20 100644 --- a/tests/codegen/array-map.rs +++ b/tests/codegen/array-map.rs @@ -27,7 +27,7 @@ #[no_mangle] pub fn long_integer_map(x: [u32; 512]) -> [u32; 512] { // CHECK: start: - // CHECK-NEXT: alloca [512 x i32] + // CHECK-NEXT: alloca [2048 x i8] // CHECK-NOT: alloca // CHECK: mul <{{[0-9]+}} x i32> // CHECK: add <{{[0-9]+}} x i32> diff --git a/tests/codegen/cast-target-abi.rs b/tests/codegen/cast-target-abi.rs index e6024f03425..9c31acc9bb7 100644 --- a/tests/codegen/cast-target-abi.rs +++ b/tests/codegen/cast-target-abi.rs @@ -77,15 +77,20 @@ pub struct DoubleFloat { // CHECK-LABEL: @call_twou16s #[no_mangle] pub unsafe fn call_twou16s() { - // aarch64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:i64]], align [[ABI_ALIGN:8]] - // loongarch64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:i64]], align [[ABI_ALIGN:8]] - // powerpc64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:i32]], align [[ABI_ALIGN:4]] - // sparc64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:i64]], align [[ABI_ALIGN:8]] + // aarch64: [[ABI_ALLOCA:%.+]] = alloca [8 x i8], align [[ABI_ALIGN:8]] + // loongarch64: [[ABI_ALLOCA:%.+]] = alloca [8 x i8], align [[ABI_ALIGN:8]] + // powerpc64: [[ABI_ALLOCA:%.+]] = alloca [4 x i8], align [[ABI_ALIGN:4]] + // sparc64: [[ABI_ALLOCA:%.+]] = alloca [8 x i8], align [[ABI_ALIGN:8]] - // CHECK: [[RUST_ALLOCA:%.+]] = alloca %TwoU16s, align [[RUST_ALIGN:2]] + // CHECK: [[RUST_ALLOCA:%.+]] = alloca [4 x i8], align [[RUST_ALIGN:2]] // CHECK: call void @llvm.memcpy.{{.+}}(ptr align [[ABI_ALIGN]] [[ABI_ALLOCA]], ptr align [[RUST_ALIGN]] [[RUST_ALLOCA]], i64 4, i1 false) - // CHECK: [[ABI_VALUE:%.+]] = load [[ABI_TYPE]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] + + // aarch64: [[ABI_VALUE:%.+]] = load [[ABI_TYPE:i64]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] + // loongarch64: [[ABI_VALUE:%.+]] = load [[ABI_TYPE:i64]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] + // powerpc64: [[ABI_VALUE:%.+]] = load [[ABI_TYPE:i32]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] + // sparc64: [[ABI_VALUE:%.+]] = load [[ABI_TYPE:i64]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] + // CHECK: call void @receives_twou16s([[ABI_TYPE]] [[ABI_VALUE]]) let x = TwoU16s { a: 1, b: 2 }; receives_twou16s(x); @@ -96,23 +101,23 @@ pub unsafe fn call_twou16s() { pub unsafe fn return_twou16s() -> TwoU16s { // powerpc returns this struct via sret pointer, it doesn't use the cast ABI. - // powerpc64: [[RETVAL:%.+]] = alloca %TwoU16s, align 2 + // powerpc64: [[RETVAL:%.+]] = alloca [4 x i8], align 2 // powerpc64: call void @returns_twou16s(ptr {{.+}} [[RETVAL]]) // The other targets copy the cast ABI type to an alloca. - // aarch64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:i64]], align [[ABI_ALIGN:8]] - // loongarch64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:i64]], align [[ABI_ALIGN:8]] - // sparc64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:i64]], align [[ABI_ALIGN:8]] + // aarch64: [[ABI_ALLOCA:%.+]] = alloca [8 x i8], align [[ABI_ALIGN:8]] + // loongarch64: [[ABI_ALLOCA:%.+]] = alloca [8 x i8], align [[ABI_ALIGN:8]] + // sparc64: [[ABI_ALLOCA:%.+]] = alloca [8 x i8], align [[ABI_ALIGN:8]] - // aarch64: [[RUST_ALLOCA:%.+]] = alloca %TwoU16s, align [[RUST_ALIGN:2]] - // loongarch64: [[RUST_ALLOCA:%.+]] = alloca %TwoU16s, align [[RUST_ALIGN:2]] - // sparc64: [[RUST_ALLOCA:%.+]] = alloca %TwoU16s, align [[RUST_ALIGN:2]] + // aarch64: [[RUST_ALLOCA:%.+]] = alloca [4 x i8], align [[RUST_ALIGN:2]] + // loongarch64: [[RUST_ALLOCA:%.+]] = alloca [4 x i8], align [[RUST_ALIGN:2]] + // sparc64: [[RUST_ALLOCA:%.+]] = alloca [4 x i8], align [[RUST_ALIGN:2]] - // aarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE]] @returns_twou16s() - // loongarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE]] @returns_twou16s() - // sparc64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE]] @returns_twou16s() + // aarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE:i64]] @returns_twou16s() + // loongarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE:i64]] @returns_twou16s() + // sparc64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE:i64]] @returns_twou16s() // aarch64: store [[ABI_TYPE]] [[ABI_VALUE]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] // loongarch64: store [[ABI_TYPE]] [[ABI_VALUE]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] @@ -127,12 +132,12 @@ pub unsafe fn return_twou16s() -> TwoU16s { // CHECK-LABEL: @call_fiveu16s #[no_mangle] pub unsafe fn call_fiveu16s() { - // CHECK: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:\[2 x i64\]]], align [[ABI_ALIGN:8]] + // CHECK: [[ABI_ALLOCA:%.+]] = alloca [16 x i8], align [[ABI_ALIGN:8]] - // CHECK: [[RUST_ALLOCA:%.+]] = alloca %FiveU16s, align 2 + // CHECK: [[RUST_ALLOCA:%.+]] = alloca [10 x i8], align 2 // CHECK: call void @llvm.memcpy.{{.+}}(ptr align [[ABI_ALIGN]] [[ABI_ALLOCA]], ptr align [[RUST_ALIGN]] [[RUST_ALLOCA]], i64 10, i1 false) - // CHECK: [[ABI_VALUE:%.+]] = load [[ABI_TYPE]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] + // CHECK: [[ABI_VALUE:%.+]] = load [[ABI_TYPE:\[2 x i64\]]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] // CHECK: call void @receives_fiveu16s([[ABI_TYPE]] [[ABI_VALUE]]) let x = FiveU16s { a: 1, b: 2, c: 3, d: 4, e: 5 }; receives_fiveu16s(x); @@ -149,13 +154,13 @@ pub unsafe fn return_fiveu16s() -> FiveU16s { // The other targets copy the cast ABI type to the sret pointer. - // aarch64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:\[2 x i64\]]], align [[ABI_ALIGN:8]] - // loongarch64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:\[2 x i64\]]], align [[ABI_ALIGN:8]] - // sparc64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:\[2 x i64\]]], align [[ABI_ALIGN:8]] + // aarch64: [[ABI_ALLOCA:%.+]] = alloca [16 x i8], align [[ABI_ALIGN:8]] + // loongarch64: [[ABI_ALLOCA:%.+]] = alloca [16 x i8], align [[ABI_ALIGN:8]] + // sparc64: [[ABI_ALLOCA:%.+]] = alloca [16 x i8], align [[ABI_ALIGN:8]] - // aarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE]] @returns_fiveu16s() - // loongarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE]] @returns_fiveu16s() - // sparc64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE]] @returns_fiveu16s() + // aarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE:\[2 x i64\]]] @returns_fiveu16s() + // loongarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE:\[2 x i64\]]] @returns_fiveu16s() + // sparc64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE:\[2 x i64\]]] @returns_fiveu16s() // aarch64: store [[ABI_TYPE]] [[ABI_VALUE]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] // loongarch64: store [[ABI_TYPE]] [[ABI_VALUE]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] @@ -170,15 +175,17 @@ pub unsafe fn return_fiveu16s() -> FiveU16s { // CHECK-LABEL: @call_doubledouble #[no_mangle] pub unsafe fn call_doubledouble() { - // aarch64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:\[2 x double\]]], align [[ABI_ALIGN:8]] - // loongarch64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:{ double, double }]], align [[ABI_ALIGN:8]] - // powerpc64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:\[2 x i64\]]], align [[ABI_ALIGN:8]] - // sparc64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:{ double, double }]], align [[ABI_ALIGN:8]] + // CHECK: [[ABI_ALLOCA:%.+]] = alloca [16 x i8], align [[ABI_ALIGN:8]] - // CHECK: [[RUST_ALLOCA:%.+]] = alloca %DoubleDouble, align [[RUST_ALIGN:8]] + // CHECK: [[RUST_ALLOCA:%.+]] = alloca [16 x i8], align [[RUST_ALIGN:8]] // CHECK: call void @llvm.memcpy.{{.+}}(ptr align [[ABI_ALIGN]] [[ABI_ALLOCA]], ptr align [[RUST_ALIGN]] [[RUST_ALLOCA]], i64 16, i1 false) - // CHECK: [[ABI_VALUE:%.+]] = load [[ABI_TYPE]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] + + // aarch64: [[ABI_VALUE:%.+]] = load [[ABI_TYPE:\[2 x double\]]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] + // loongarch64: [[ABI_VALUE:%.+]] = load [[ABI_TYPE:{ double, double }]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] + // powerpc64: [[ABI_VALUE:%.+]] = load [[ABI_TYPE:\[2 x i64\]]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] + // sparc64: [[ABI_VALUE:%.+]] = load [[ABI_TYPE:{ double, double }]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] + // CHECK: call void @receives_doubledouble([[ABI_TYPE]] [[ABI_VALUE]]) let x = DoubleDouble { f: 1., g: 2. }; receives_doubledouble(x); @@ -189,23 +196,23 @@ pub unsafe fn call_doubledouble() { pub unsafe fn return_doubledouble() -> DoubleDouble { // powerpc returns this struct via sret pointer, it doesn't use the cast ABI. - // powerpc64: [[RETVAL:%.+]] = alloca %DoubleDouble, align 8 + // powerpc64: [[RETVAL:%.+]] = alloca [16 x i8], align 8 // powerpc64: call void @returns_doubledouble(ptr {{.+}} [[RETVAL]]) // The other targets copy the cast ABI type to an alloca. - // aarch64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:\[2 x double\]]], align [[ABI_ALIGN:8]] - // loongarch64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:{ double, double }]], align [[ABI_ALIGN:8]] - // sparc64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:{ double, double }]], align [[ABI_ALIGN:8]] + // aarch64: [[ABI_ALLOCA:%.+]] = alloca [16 x i8], align [[ABI_ALIGN:8]] + // loongarch64: [[ABI_ALLOCA:%.+]] = alloca [16 x i8], align [[ABI_ALIGN:8]] + // sparc64: [[ABI_ALLOCA:%.+]] = alloca [16 x i8], align [[ABI_ALIGN:8]] - // aarch64: [[RUST_ALLOCA:%.+]] = alloca %DoubleDouble, align [[RUST_ALIGN:8]] - // loongarch64: [[RUST_ALLOCA:%.+]] = alloca %DoubleDouble, align [[RUST_ALIGN:8]] - // sparc64: [[RUST_ALLOCA:%.+]] = alloca %DoubleDouble, align [[RUST_ALIGN:8]] + // aarch64: [[RUST_ALLOCA:%.+]] = alloca [16 x i8], align [[RUST_ALIGN:8]] + // loongarch64: [[RUST_ALLOCA:%.+]] = alloca [16 x i8], align [[RUST_ALIGN:8]] + // sparc64: [[RUST_ALLOCA:%.+]] = alloca [16 x i8], align [[RUST_ALIGN:8]] - // aarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE]] @returns_doubledouble() - // loongarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE]] @returns_doubledouble() - // sparc64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE]] @returns_doubledouble() + // aarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE:\[2 x double\]]] @returns_doubledouble() + // loongarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE:{ double, double }]] @returns_doubledouble() + // sparc64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE:{ double, double }]] @returns_doubledouble() // aarch64: store [[ABI_TYPE]] [[ABI_VALUE]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] // loongarch64: store [[ABI_TYPE]] [[ABI_VALUE]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] @@ -224,21 +231,21 @@ pub unsafe fn return_doubledouble() -> DoubleDouble { // powerpc64-LABEL: @call_doublefloat #[no_mangle] pub unsafe fn call_doublefloat() { - // aarch64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:\[2 x i64\]]], align [[ABI_ALIGN:8]] - // loongarch64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:{ double, float }]], align [[ABI_ALIGN:8]] - // powerpc64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:\[2 x i64\]]], align [[ABI_ALIGN:8]] + // aarch64: [[ABI_ALLOCA:%.+]] = alloca [16 x i8], align [[ABI_ALIGN:8]] + // loongarch64: [[ABI_ALLOCA:%.+]] = alloca [12 x i8], align [[ABI_ALIGN:8]] + // powerpc64: [[ABI_ALLOCA:%.+]] = alloca [16 x i8], align [[ABI_ALIGN:8]] - // aarch64: [[RUST_ALLOCA:%.+]] = alloca %DoubleFloat, align [[RUST_ALIGN:8]] - // loongarch64: [[RUST_ALLOCA:%.+]] = alloca %DoubleFloat, align [[RUST_ALIGN:8]] - // powerpc64: [[RUST_ALLOCA:%.+]] = alloca %DoubleFloat, align [[RUST_ALIGN:8]] + // aarch64: [[RUST_ALLOCA:%.+]] = alloca [16 x i8], align [[RUST_ALIGN:8]] + // loongarch64: [[RUST_ALLOCA:%.+]] = alloca [16 x i8], align [[RUST_ALIGN:8]] + // powerpc64: [[RUST_ALLOCA:%.+]] = alloca [16 x i8], align [[RUST_ALIGN:8]] // aarch64: call void @llvm.memcpy.{{.+}}(ptr align [[ABI_ALIGN]] [[ABI_ALLOCA]], ptr align [[RUST_ALIGN]] [[RUST_ALLOCA]], i64 16, i1 false) // loongarch64: call void @llvm.memcpy.{{.+}}(ptr align [[ABI_ALIGN]] [[ABI_ALLOCA]], ptr align [[RUST_ALIGN]] [[RUST_ALLOCA]], i64 12, i1 false) // powerpc64: call void @llvm.memcpy.{{.+}}(ptr align [[ABI_ALIGN]] [[ABI_ALLOCA]], ptr align [[RUST_ALIGN]] [[RUST_ALLOCA]], i64 16, i1 false) - // aarch64: [[ABI_VALUE:%.+]] = load [[ABI_TYPE]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] - // loongarch64: [[ABI_VALUE:%.+]] = load [[ABI_TYPE]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] - // powerpc64: [[ABI_VALUE:%.+]] = load [[ABI_TYPE]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] + // aarch64: [[ABI_VALUE:%.+]] = load [[ABI_TYPE:\[2 x i64\]]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] + // loongarch64: [[ABI_VALUE:%.+]] = load [[ABI_TYPE:{ double, float }]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] + // powerpc64: [[ABI_VALUE:%.+]] = load [[ABI_TYPE:\[2 x i64\]]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] // aarch64: call void @receives_doublefloat([[ABI_TYPE]] {{(inreg )?}}[[ABI_VALUE]]) // loongarch64: call void @receives_doublefloat([[ABI_TYPE]] {{(inreg )?}}[[ABI_VALUE]]) @@ -256,20 +263,20 @@ pub unsafe fn call_doublefloat() { pub unsafe fn return_doublefloat() -> DoubleFloat { // powerpc returns this struct via sret pointer, it doesn't use the cast ABI. - // powerpc64: [[RETVAL:%.+]] = alloca %DoubleFloat, align 8 + // powerpc64: [[RETVAL:%.+]] = alloca [16 x i8], align 8 // powerpc64: call void @returns_doublefloat(ptr {{.+}} [[RETVAL]]) // The other targets copy the cast ABI type to an alloca. - // aarch64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:\[2 x i64\]]], align [[ABI_ALIGN:8]] - // loongarch64: [[ABI_ALLOCA:%.+]] = alloca [[ABI_TYPE:{ double, float }]], align [[ABI_ALIGN:8]] + // aarch64: [[ABI_ALLOCA:%.+]] = alloca [16 x i8], align [[ABI_ALIGN:8]] + // loongarch64: [[ABI_ALLOCA:%.+]] = alloca [12 x i8], align [[ABI_ALIGN:8]] - // aarch64: [[RUST_ALLOCA:%.+]] = alloca %DoubleFloat, align [[RUST_ALIGN:8]] - // loongarch64: [[RUST_ALLOCA:%.+]] = alloca %DoubleFloat, align [[RUST_ALIGN:8]] + // aarch64: [[RUST_ALLOCA:%.+]] = alloca [16 x i8], align [[RUST_ALIGN:8]] + // loongarch64: [[RUST_ALLOCA:%.+]] = alloca [16 x i8], align [[RUST_ALIGN:8]] - // aarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE]] @returns_doublefloat() - // loongarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE]] @returns_doublefloat() + // aarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE:\[2 x i64\]]] @returns_doublefloat() + // loongarch64: [[ABI_VALUE:%.+]] = call [[ABI_TYPE:{ double, float }]] @returns_doublefloat() // aarch64: store [[ABI_TYPE]] [[ABI_VALUE]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] // loongarch64: store [[ABI_TYPE]] [[ABI_VALUE]], ptr [[ABI_ALLOCA]], align [[ABI_ALIGN]] diff --git a/tests/codegen/cffi/ffi-out-of-bounds-loads.rs b/tests/codegen/cffi/ffi-out-of-bounds-loads.rs index 8b32e902b3f..35bf00f8f3c 100644 --- a/tests/codegen/cffi/ffi-out-of-bounds-loads.rs +++ b/tests/codegen/cffi/ffi-out-of-bounds-loads.rs @@ -33,7 +33,7 @@ struct S { pub fn test() { let s = S { f1: 1, f2: 2, f3: 3 }; unsafe { - // CHECK: [[ALLOCA:%.+]] = alloca { i64, i32 }, align 8 + // CHECK: [[ALLOCA:%.+]] = alloca [12 x i8], align 8 // CHECK: [[LOAD:%.+]] = load { i64, i32 }, ptr [[ALLOCA]], align 8 // CHECK: call void @foo({ i64, i32 } [[LOAD]]) foo(s); diff --git a/tests/codegen/debug-fndef-size.rs b/tests/codegen/debug-fndef-size.rs index b3cc45614bc..5551d2cc39c 100644 --- a/tests/codegen/debug-fndef-size.rs +++ b/tests/codegen/debug-fndef-size.rs @@ -12,7 +12,7 @@ pub fn main() { foo(0, 1, i32::cmp); } -// CHECK: %compare.dbg.spill = alloca {}, align 1 +// CHECK: %compare.dbg.spill = alloca [0 x i8], align 1 // CHECK: call void @llvm.dbg.declare(metadata ptr %compare.dbg.spill, metadata ![[VAR:.*]], metadata !DIExpression()), !dbg !{{.*}} // CHECK: ![[TYPE:.*]] = !DIDerivedType(tag: DW_TAG_pointer_type, name: "fn(&i32, &i32) -> core::cmp::Ordering", baseType: !{{.*}}, align: 1, dwarfAddressSpace: {{.*}}) // CHECK: ![[VAR]] = !DILocalVariable(name: "compare", scope: !{{.*}}, file: !{{.*}}, line: {{.*}}, type: ![[TYPE]], align: 1) diff --git a/tests/codegen/emcripten-catch-unwind.rs b/tests/codegen/emcripten-catch-unwind.rs new file mode 100644 index 00000000000..7de7bd81b5c --- /dev/null +++ b/tests/codegen/emcripten-catch-unwind.rs @@ -0,0 +1,59 @@ +//@ compile-flags: -O --target wasm32-unknown-emscripten +//@ needs-llvm-components: webassembly + +// Emscripten has its own unique implementation of catch_unwind (in `codegen_emcc_try`), +// make sure it generates something reasonable. + +#![feature(no_core, lang_items, intrinsics, rustc_attrs)] +#![crate_type = "lib"] +#![no_std] +#![no_core] + +#[lang="sized"] trait Sized { } +#[lang="freeze"] trait Freeze { } +#[lang="copy"] trait Copy { } + +#[rustc_intrinsic] +fn size_of() -> usize { loop {} } + +extern "rust-intrinsic" { + fn catch_unwind( + try_fn: fn(_: *mut u8), + data: *mut u8, + catch_fn: fn(_: *mut u8, _: *mut u8) + ) -> i32; +} + +// CHECK-LABEL: @ptr_size +#[no_mangle] +pub fn ptr_size() -> usize { + // CHECK: ret [[PTR_SIZE:.*]] + size_of::<*mut u8>() +} + +// CHECK-LABEL: @test_catch_unwind +#[no_mangle] +pub unsafe fn test_catch_unwind( + try_fn: fn(_: *mut u8), + data: *mut u8, + catch_fn: fn(_: *mut u8, _: *mut u8) +) -> i32 { + // CHECK: start: + // CHECK: [[ALLOCA:%.*]] = alloca + + // CHECK: catch.i: + // CHECK: [[LANDINGPAD:%.*]] = landingpad + // CHECK: [[EXCEPTION:%.*]] = extractvalue {{.*}} [[LANDINGPAD]], 0 + // CHECK: [[SELECTOR:%.*]] = extractvalue {{.*}} [[LANDINGPAD]], 1 + + // CHECK: [[IS_RUST_EXN:%.*]] = icmp eq {{.*}}[[SELECTOR]] + // CHECK: [[IS_RUST_EXN_I8:%.*]] = zext i1 [[IS_RUST_EXN]] to i8 + + // CHECK: store ptr [[EXCEPTION]], ptr [[ALLOCA]] + // CHECK: [[IS_RUST_SLOT:%.*]] = getelementptr inbounds i8, ptr [[ALLOCA]], [[PTR_SIZE]] + // CHECK: store i8 [[IS_RUST_EXN_I8]], ptr [[IS_RUST_SLOT]] + + // CHECK: call void %catch_fn(ptr %data, ptr nonnull [[ALLOCA]]) + + catch_unwind(try_fn, data, catch_fn) +} diff --git a/tests/codegen/enum/enum-match.rs b/tests/codegen/enum/enum-match.rs index 2e6dad8791b..f1c40f6695b 100644 --- a/tests/codegen/enum/enum-match.rs +++ b/tests/codegen/enum/enum-match.rs @@ -15,7 +15,7 @@ pub enum Enum0 { // CHECK-NEXT: start: // CHECK-NEXT: %1 = icmp eq i8 %0, 2 // CHECK-NEXT: %2 = and i8 %0, 1 -// CHECK-NEXT: %_0.0 = select i1 %1, i8 13, i8 %2 +// CHECK-NEXT: %{{.+}} = select i1 %1, i8 13, i8 %2 #[no_mangle] pub fn match0(e: Enum0) -> u8 { use Enum0::*; diff --git a/tests/codegen/i128-x86-align.rs b/tests/codegen/i128-x86-align.rs index b2e0c294c39..3e6ed2b8e16 100644 --- a/tests/codegen/i128-x86-align.rs +++ b/tests/codegen/i128-x86-align.rs @@ -6,7 +6,6 @@ // correctly. // CHECK: %ScalarPair = type { i32, [3 x i32], i128 } -// CHECK: %Struct = type { i32, i32, [2 x i32], i128 } #![feature(core_intrinsics)] @@ -43,7 +42,7 @@ pub fn store(x: &mut ScalarPair) { #[no_mangle] pub fn alloca() { // CHECK-LABEL: @alloca( - // CHECK: [[X:%.*]] = alloca %ScalarPair, align 16 + // CHECK: [[X:%.*]] = alloca [32 x i8], align 16 // CHECK: store i32 1, ptr %x, align 16 // CHECK-NEXT: [[GEP:%.*]] = getelementptr inbounds i8, ptr %x, i64 16 // CHECK-NEXT: store i128 2, ptr [[GEP]], align 16 @@ -55,7 +54,7 @@ pub fn alloca() { pub fn load_volatile(x: &ScalarPair) -> ScalarPair { // CHECK-LABEL: @load_volatile( // CHECK-SAME: align 16 dereferenceable(32) %x - // CHECK: [[TMP:%.*]] = alloca %ScalarPair, align 16 + // CHECK: [[TMP:%.*]] = alloca [32 x i8], align 16 // CHECK: [[LOAD:%.*]] = load volatile %ScalarPair, ptr %x, align 16 // CHECK-NEXT: store %ScalarPair [[LOAD]], ptr [[TMP]], align 16 // CHECK-NEXT: [[A:%.*]] = load i32, ptr [[TMP]], align 16 @@ -67,7 +66,7 @@ pub fn load_volatile(x: &ScalarPair) -> ScalarPair { #[no_mangle] pub fn transmute(x: ScalarPair) -> (std::mem::MaybeUninit, i128) { // CHECK-LABEL: define { i128, i128 } @transmute(i32 noundef %x.0, i128 noundef %x.1) - // CHECK: [[TMP:%.*]] = alloca { i128, i128 }, align 16 + // CHECK: [[TMP:%.*]] = alloca [32 x i8], align 16 // CHECK-NEXT: store i32 %x.0, ptr [[TMP]], align 16 // CHECK-NEXT: [[GEP:%.*]] = getelementptr inbounds i8, ptr [[TMP]], i64 16 // CHECK-NEXT: store i128 %x.1, ptr [[GEP]], align 16 @@ -92,7 +91,7 @@ pub struct Struct { pub fn store_struct(x: &mut Struct) { // CHECK-LABEL: @store_struct( // CHECK-SAME: align 16 dereferenceable(32) %x - // CHECK: [[TMP:%.*]] = alloca %Struct, align 16 + // CHECK: [[TMP:%.*]] = alloca [32 x i8], align 16 // CHECK: store i32 1, ptr [[TMP]], align 16 // CHECK-NEXT: [[GEP1:%.*]] = getelementptr inbounds i8, ptr [[TMP]], i64 4 // CHECK-NEXT: store i32 2, ptr [[GEP1]], align 4 diff --git a/tests/codegen/intrinsics/transmute.rs b/tests/codegen/intrinsics/transmute.rs index f858562b5f1..76cdf7e191e 100644 --- a/tests/codegen/intrinsics/transmute.rs +++ b/tests/codegen/intrinsics/transmute.rs @@ -153,7 +153,7 @@ pub unsafe fn check_from_newtype(x: Scalar64) -> u64 { // CHECK-LABEL: @check_aggregate_to_bool( #[no_mangle] pub unsafe fn check_aggregate_to_bool(x: Aggregate8) -> bool { - // CHECK: %x = alloca %Aggregate8, align 1 + // CHECK: %x = alloca [1 x i8], align 1 // CHECK: %[[BYTE:.+]] = load i8, ptr %x, align 1 // CHECK: %[[BOOL:.+]] = trunc i8 %[[BYTE]] to i1 // CHECK: ret i1 %[[BOOL]] @@ -163,7 +163,7 @@ pub unsafe fn check_aggregate_to_bool(x: Aggregate8) -> bool { // CHECK-LABEL: @check_aggregate_from_bool( #[no_mangle] pub unsafe fn check_aggregate_from_bool(x: bool) -> Aggregate8 { - // CHECK: %_0 = alloca %Aggregate8, align 1 + // CHECK: %_0 = alloca [1 x i8], align 1 // CHECK: %[[BYTE:.+]] = zext i1 %x to i8 // CHECK: store i8 %[[BYTE]], ptr %_0, align 1 transmute(x) @@ -190,7 +190,7 @@ pub unsafe fn check_byte_from_bool(x: bool) -> u8 { // CHECK-LABEL: @check_to_pair( #[no_mangle] pub unsafe fn check_to_pair(x: u64) -> Option { - // CHECK: %_0 = alloca %"core::option::Option", align 4 + // CHECK: %_0 = alloca [8 x i8], align 4 // CHECK: store i64 %x, ptr %_0, align 4 transmute(x) } @@ -202,7 +202,7 @@ pub unsafe fn check_from_pair(x: Option) -> u64 { // immediates so we can write using the destination alloca's alignment. const { assert!(std::mem::align_of::>() == 4) }; - // CHECK: %_0 = alloca i64, align 8 + // CHECK: %_0 = alloca [8 x i8], align 8 // CHECK: store i32 %x.0, ptr %_0, align 8 // CHECK: store i32 %x.1, ptr %0, align 4 // CHECK: %[[R:.+]] = load i64, ptr %_0, align 8 @@ -248,7 +248,7 @@ pub unsafe fn check_from_float(x: f32) -> u32 { // CHECK-LABEL: @check_to_aggregate( #[no_mangle] pub unsafe fn check_to_aggregate(x: u64) -> Aggregate64 { - // CHECK: %_0 = alloca %Aggregate64, align 4 + // CHECK: %_0 = alloca [8 x i8], align 4 // CHECK: store i64 %x, ptr %_0, align 4 // CHECK: %0 = load i64, ptr %_0, align 4 // CHECK: ret i64 %0 @@ -258,7 +258,7 @@ pub unsafe fn check_to_aggregate(x: u64) -> Aggregate64 { // CHECK-LABEL: @check_from_aggregate( #[no_mangle] pub unsafe fn check_from_aggregate(x: Aggregate64) -> u64 { - // CHECK: %x = alloca %Aggregate64, align 4 + // CHECK: %x = alloca [8 x i8], align 4 // CHECK: %[[VAL:.+]] = load i64, ptr %x, align 4 // CHECK: ret i64 %[[VAL]] transmute(x) @@ -452,7 +452,7 @@ pub unsafe fn check_maybe_uninit_pair( // CHECK-LABEL: @check_to_overalign( #[no_mangle] pub unsafe fn check_to_overalign(x: u64) -> HighAlignScalar { - // CHECK: %_0 = alloca %HighAlignScalar, align 8 + // CHECK: %_0 = alloca [8 x i8], align 8 // CHECK: store i64 %x, ptr %_0, align 8 // CHECK: %0 = load i64, ptr %_0, align 8 // CHECK: ret i64 %0 @@ -462,7 +462,7 @@ pub unsafe fn check_to_overalign(x: u64) -> HighAlignScalar { // CHECK-LABEL: @check_from_overalign( #[no_mangle] pub unsafe fn check_from_overalign(x: HighAlignScalar) -> u64 { - // CHECK: %x = alloca %HighAlignScalar, align 8 + // CHECK: %x = alloca [8 x i8], align 8 // CHECK: %[[VAL:.+]] = load i64, ptr %x, align 8 // CHECK: ret i64 %[[VAL]] transmute(x) diff --git a/tests/codegen/issues/issue-105386-ub-in-debuginfo.rs b/tests/codegen/issues/issue-105386-ub-in-debuginfo.rs index 0bd43dc50b2..4d1c0a83b55 100644 --- a/tests/codegen/issues/issue-105386-ub-in-debuginfo.rs +++ b/tests/codegen/issues/issue-105386-ub-in-debuginfo.rs @@ -15,7 +15,7 @@ pub fn outer_function(x: S, y: S) -> usize { // Check that we do not attempt to load from the spilled arg before it is assigned to // when generating debuginfo. // CHECK-LABEL: @outer_function -// CHECK: [[spill:%.*]] = alloca %"{closure@{{.*.rs}}:9:23: 9:25}" +// CHECK: [[spill:%.*]] = alloca [72 x i8] // CHECK-NOT: [[ptr_tmp:%.*]] = getelementptr inbounds i8, ptr [[spill]] // CHECK-NOT: [[load:%.*]] = load ptr, ptr // CHECK: call void @llvm.lifetime.start{{.*}}({{.*}}, ptr [[spill]]) diff --git a/tests/codegen/issues/issue-111603.rs b/tests/codegen/issues/issue-111603.rs index 3f4c7e7d542..41bfb493ff5 100644 --- a/tests/codegen/issues/issue-111603.rs +++ b/tests/codegen/issues/issue-111603.rs @@ -11,7 +11,7 @@ pub fn new_from_array(x: u64) -> Arc<[u64]> { // Ensure that we only generate one alloca for the array. // CHECK: alloca - // CHECK-SAME: [1000 x i64] + // CHECK-SAME: [8000 x i8] // CHECK-NOT: alloca let array = [x; 1000]; Arc::new(array) diff --git a/tests/codegen/overaligned-constant.rs b/tests/codegen/overaligned-constant.rs index 9e5b69ff267..7cd8d19c211 100644 --- a/tests/codegen/overaligned-constant.rs +++ b/tests/codegen/overaligned-constant.rs @@ -2,7 +2,7 @@ // do not ICE during codegen, and that the LLVM constant has the higher alignment. // //@ compile-flags: -Zmir-opt-level=0 -Zmir-enable-passes=+GVN -//@ compile-flags: -Cno-prepopulate-passes +//@ compile-flags: -Cno-prepopulate-passes --crate-type=lib //@ only-64bit struct S(i32); @@ -12,9 +12,10 @@ // CHECK: @0 = private unnamed_addr constant // CHECK-SAME: , align 8 -fn main() { - // CHECK-LABEL: @_ZN20overaligned_constant4main - // CHECK: [[full:%_.*]] = alloca %SmallStruct, align 8 +#[no_mangle] +pub fn overaligned_constant() { + // CHECK-LABEL: @overaligned_constant + // CHECK: [[full:%_.*]] = alloca [32 x i8], align 8 // CHECK: call void @llvm.memcpy.p0.p0.i64(ptr align 8 [[full]], ptr align 8 @0, i64 32, i1 false) // CHECK: %b.0 = load i32, ptr @0, align 4 // CHECK: %b.1 = load i32, ptr getelementptr inbounds ({{.*}}), align 4 diff --git a/tests/codegen/packed.rs b/tests/codegen/packed.rs index 764476b0aa1..5142df9c488 100644 --- a/tests/codegen/packed.rs +++ b/tests/codegen/packed.rs @@ -51,7 +51,7 @@ pub struct BigPacked2 { // CHECK-LABEL: @call_pkd1 #[no_mangle] pub fn call_pkd1(f: fn() -> Array) -> BigPacked1 { -// CHECK: [[ALLOCA:%[_a-z0-9]+]] = alloca %Array +// CHECK: [[ALLOCA:%[_a-z0-9]+]] = alloca [32 x i8] // CHECK: call void %{{.*}}(ptr noalias nocapture noundef sret{{.*}} dereferenceable(32) [[ALLOCA]]) // CHECK: call void @llvm.memcpy.{{.*}}(ptr align 1 %{{.*}}, ptr align 4 %{{.*}}, i{{[0-9]+}} 32, i1 false) // check that calls whose destination is a field of a packed struct @@ -63,7 +63,7 @@ pub fn call_pkd1(f: fn() -> Array) -> BigPacked1 { // CHECK-LABEL: @call_pkd2 #[no_mangle] pub fn call_pkd2(f: fn() -> Array) -> BigPacked2 { -// CHECK: [[ALLOCA:%[_a-z0-9]+]] = alloca %Array +// CHECK: [[ALLOCA:%[_a-z0-9]+]] = alloca [32 x i8] // CHECK: call void %{{.*}}(ptr noalias nocapture noundef sret{{.*}} dereferenceable(32) [[ALLOCA]]) // CHECK: call void @llvm.memcpy.{{.*}}(ptr align 2 %{{.*}}, ptr align 4 %{{.*}}, i{{[0-9]+}} 32, i1 false) // check that calls whose destination is a field of a packed struct diff --git a/tests/codegen/personality_lifetimes.rs b/tests/codegen/personality_lifetimes.rs index f2ab9c3bb82..0ef4aa424d8 100644 --- a/tests/codegen/personality_lifetimes.rs +++ b/tests/codegen/personality_lifetimes.rs @@ -23,7 +23,7 @@ pub fn test() { let _s = S; // Check that the personality slot alloca gets a lifetime start in each cleanup block, not just // in the first one. - // CHECK: [[SLOT:%[0-9]+]] = alloca { ptr, i32{{.*}} } + // CHECK: [[SLOT:%[0-9]+]] = alloca [{{[0-9]+}} x i8] // CHECK-LABEL: cleanup: // CHECK: call void @llvm.lifetime.start.{{.*}}({{.*}}) // CHECK-LABEL: cleanup1: diff --git a/tests/codegen/sroa-fragment-debuginfo.rs b/tests/codegen/sroa-fragment-debuginfo.rs index d8c2d2c6f9e..32786d2a76a 100644 --- a/tests/codegen/sroa-fragment-debuginfo.rs +++ b/tests/codegen/sroa-fragment-debuginfo.rs @@ -14,9 +14,9 @@ pub struct ExtraSlice<'input> { #[no_mangle] pub fn extra(s: &[u8]) { // CHECK: void @extra( -// CHECK: %slice.dbg.spill1 = alloca i32, -// CHECK: %slice.dbg.spill = alloca { ptr, i64 }, -// CHECK: %s.dbg.spill = alloca { ptr, i64 }, +// CHECK: %slice.dbg.spill1 = alloca [4 x i8], +// CHECK: %slice.dbg.spill = alloca [16 x i8], +// CHECK: %s.dbg.spill = alloca [16 x i8], // CHECK: call void @llvm.dbg.declare(metadata ptr %s.dbg.spill, metadata ![[S_EXTRA:.*]], metadata !DIExpression()), // CHECK: call void @llvm.dbg.declare(metadata ptr %slice.dbg.spill, metadata ![[SLICE_EXTRA:.*]], metadata !DIExpression(DW_OP_LLVM_fragment, 0, 128)), // CHECK: call void @llvm.dbg.declare(metadata ptr %slice.dbg.spill1, metadata ![[SLICE_EXTRA]], metadata !DIExpression(DW_OP_LLVM_fragment, 128, 32)), diff --git a/tests/codegen/stores.rs b/tests/codegen/stores.rs index 3fda5aa47ea..86ec52fa101 100644 --- a/tests/codegen/stores.rs +++ b/tests/codegen/stores.rs @@ -15,8 +15,8 @@ pub struct Bytes { // dependent alignment #[no_mangle] pub fn small_array_alignment(x: &mut [i8; 4], y: [i8; 4]) { -// CHECK: [[TMP:%.+]] = alloca i32 -// CHECK: %y = alloca [4 x i8] +// CHECK: [[TMP:%.+]] = alloca [4 x i8], align 4 +// CHECK: %y = alloca [4 x i8], align 1 // CHECK: store i32 %0, ptr [[TMP]] // CHECK: call void @llvm.memcpy.{{.*}}(ptr align 1 {{.+}}, ptr align 4 {{.+}}, i{{[0-9]+}} 4, i1 false) *x = y; @@ -27,8 +27,8 @@ pub struct Bytes { // dependent alignment #[no_mangle] pub fn small_struct_alignment(x: &mut Bytes, y: Bytes) { -// CHECK: [[TMP:%.+]] = alloca i32 -// CHECK: %y = alloca %Bytes +// CHECK: [[TMP:%.+]] = alloca [4 x i8], align 4 +// CHECK: %y = alloca [4 x i8], align 1 // CHECK: store i32 %0, ptr [[TMP]] // CHECK: call void @llvm.memcpy.{{.*}}(ptr align 1 {{.+}}, ptr align 4 {{.+}}, i{{[0-9]+}} 4, i1 false) *x = y; diff --git a/tests/codegen/swap-large-types.rs b/tests/codegen/swap-large-types.rs index b182f3ed947..b976f6fe207 100644 --- a/tests/codegen/swap-large-types.rs +++ b/tests/codegen/swap-large-types.rs @@ -15,7 +15,7 @@ // CHECK-LABEL: @swap_basic #[no_mangle] pub fn swap_basic(x: &mut KeccakBuffer, y: &mut KeccakBuffer) { -// CHECK: alloca [5 x [5 x i64]] +// CHECK: alloca [200 x i8] // SAFETY: exclusive references are always valid to read/write, // are non-overlapping, and nothing here panics so it's drop-safe. diff --git a/tests/codegen/swap-small-types.rs b/tests/codegen/swap-small-types.rs index 4dcfed2a53a..1a48c63d813 100644 --- a/tests/codegen/swap-small-types.rs +++ b/tests/codegen/swap-small-types.rs @@ -12,7 +12,7 @@ pub fn swap_rgb48_manually(x: &mut RGB48, y: &mut RGB48) { // FIXME: See #115212 for why this has an alloca again - // CHECK: alloca [3 x i16], align 2 + // CHECK: alloca [6 x i8], align 2 // CHECK: call void @llvm.memcpy.p0.p0.i64({{.+}}, i64 6, i1 false) // CHECK: call void @llvm.memcpy.p0.p0.i64({{.+}}, i64 6, i1 false) // CHECK: call void @llvm.memcpy.p0.p0.i64({{.+}}, i64 6, i1 false)