From 698f8c2f01ea549d77d7dc3338a12e04c11057b9 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Wed, 17 Apr 2024 14:02:58 +0200 Subject: Adding upstream version 1.64.0+dfsg1. Signed-off-by: Daniel Baumann --- compiler/rustc_codegen_gcc/src/type_.rs | 303 ++++++++++++++++++++++++++++++++ 1 file changed, 303 insertions(+) create mode 100644 compiler/rustc_codegen_gcc/src/type_.rs (limited to 'compiler/rustc_codegen_gcc/src/type_.rs') diff --git a/compiler/rustc_codegen_gcc/src/type_.rs b/compiler/rustc_codegen_gcc/src/type_.rs new file mode 100644 index 000000000..68bdb8d4e --- /dev/null +++ b/compiler/rustc_codegen_gcc/src/type_.rs @@ -0,0 +1,303 @@ +use std::convert::TryInto; + +use gccjit::{RValue, Struct, Type}; +use rustc_codegen_ssa::traits::{BaseTypeMethods, DerivedTypeMethods, TypeMembershipMethods}; +use rustc_codegen_ssa::common::TypeKind; +use rustc_middle::{bug, ty}; +use rustc_middle::ty::layout::TyAndLayout; +use rustc_target::abi::{AddressSpace, Align, Integer, Size}; + +use crate::common::TypeReflection; +use crate::context::CodegenCx; +use crate::type_of::LayoutGccExt; + +impl<'gcc, 'tcx> CodegenCx<'gcc, 'tcx> { + pub fn type_ix(&self, num_bits: u64) -> Type<'gcc> { + // gcc only supports 1, 2, 4 or 8-byte integers. + // FIXME(antoyo): this is misleading to use the next power of two as rustc_codegen_ssa + // sometimes use 96-bit numbers and the following code will give an integer of a different + // size. + let bytes = (num_bits / 8).next_power_of_two() as i32; + match bytes { + 1 => self.i8_type, + 2 => self.i16_type, + 4 => self.i32_type, + 8 => self.i64_type, + 16 => self.i128_type, + _ => panic!("unexpected num_bits: {}", num_bits), + } + } + + pub fn type_void(&self) -> Type<'gcc> { + self.context.new_type::<()>() + } + + pub fn type_size_t(&self) -> Type<'gcc> { + self.context.new_type::() + } + + pub fn type_u8(&self) -> Type<'gcc> { + self.u8_type + } + + pub fn type_u16(&self) -> Type<'gcc> { + self.u16_type + } + + pub fn type_u32(&self) -> Type<'gcc> { + self.u32_type + } + + pub fn type_u64(&self) -> Type<'gcc> { + self.u64_type + } + + pub fn type_u128(&self) -> Type<'gcc> { + self.u128_type + } + + pub fn type_pointee_for_align(&self, align: Align) -> Type<'gcc> { + // FIXME(eddyb) We could find a better approximation if ity.align < align. + let ity = Integer::approximate_align(self, align); + self.type_from_integer(ity) + } + + pub fn type_vector(&self, ty: Type<'gcc>, len: u64) -> Type<'gcc> { + self.context.new_vector_type(ty, len) + } + + pub fn type_float_from_ty(&self, t: ty::FloatTy) -> Type<'gcc> { + match t { + ty::FloatTy::F32 => self.type_f32(), + ty::FloatTy::F64 => self.type_f64(), + } + } +} + +impl<'gcc, 'tcx> BaseTypeMethods<'tcx> for CodegenCx<'gcc, 'tcx> { + fn type_i1(&self) -> Type<'gcc> { + self.bool_type + } + + fn type_i8(&self) -> Type<'gcc> { + self.i8_type + } + + fn type_i16(&self) -> Type<'gcc> { + self.i16_type + } + + fn type_i32(&self) -> Type<'gcc> { + self.i32_type + } + + fn type_i64(&self) -> Type<'gcc> { + self.i64_type + } + + fn type_i128(&self) -> Type<'gcc> { + self.i128_type + } + + fn type_isize(&self) -> Type<'gcc> { + self.isize_type + } + + fn type_f32(&self) -> Type<'gcc> { + self.context.new_type::() + } + + fn type_f64(&self) -> Type<'gcc> { + self.context.new_type::() + } + + fn type_func(&self, params: &[Type<'gcc>], return_type: Type<'gcc>) -> Type<'gcc> { + self.context.new_function_pointer_type(None, return_type, params, false) + } + + fn type_struct(&self, fields: &[Type<'gcc>], packed: bool) -> Type<'gcc> { + let types = fields.to_vec(); + if let Some(typ) = self.struct_types.borrow().get(fields) { + return typ.clone(); + } + let fields: Vec<_> = fields.iter().enumerate() + .map(|(index, field)| self.context.new_field(None, *field, &format!("field{}_TODO", index))) + .collect(); + let typ = self.context.new_struct_type(None, "struct", &fields).as_type(); + if packed { + #[cfg(feature="master")] + typ.set_packed(); + } + self.struct_types.borrow_mut().insert(types, typ); + typ + } + + fn type_kind(&self, typ: Type<'gcc>) -> TypeKind { + if self.is_int_type_or_bool(typ) { + TypeKind::Integer + } + else if typ.is_compatible_with(self.float_type) { + TypeKind::Float + } + else if typ.is_compatible_with(self.double_type) { + TypeKind::Double + } + else if typ.is_vector() { + TypeKind::Vector + } + else { + // TODO(antoyo): support other types. + TypeKind::Void + } + } + + fn type_ptr_to(&self, ty: Type<'gcc>) -> Type<'gcc> { + ty.make_pointer() + } + + fn type_ptr_to_ext(&self, ty: Type<'gcc>, _address_space: AddressSpace) -> Type<'gcc> { + // TODO(antoyo): use address_space, perhaps with TYPE_ADDR_SPACE? + ty.make_pointer() + } + + fn element_type(&self, ty: Type<'gcc>) -> Type<'gcc> { + if let Some(typ) = ty.dyncast_array() { + typ + } + else if let Some(vector_type) = ty.dyncast_vector() { + vector_type.get_element_type() + } + else if let Some(typ) = ty.get_pointee() { + typ + } + else { + unreachable!() + } + } + + fn vector_length(&self, _ty: Type<'gcc>) -> usize { + unimplemented!(); + } + + fn float_width(&self, typ: Type<'gcc>) -> usize { + let f32 = self.context.new_type::(); + let f64 = self.context.new_type::(); + if typ.is_compatible_with(f32) { + 32 + } + else if typ.is_compatible_with(f64) { + 64 + } + else { + panic!("Cannot get width of float type {:?}", typ); + } + // TODO(antoyo): support other sizes. + } + + fn int_width(&self, typ: Type<'gcc>) -> u64 { + self.gcc_int_width(typ) + } + + fn val_ty(&self, value: RValue<'gcc>) -> Type<'gcc> { + value.get_type() + } +} + +impl<'gcc, 'tcx> CodegenCx<'gcc, 'tcx> { + pub fn type_padding_filler(&self, size: Size, align: Align) -> Type<'gcc> { + let unit = Integer::approximate_align(self, align); + let size = size.bytes(); + let unit_size = unit.size().bytes(); + assert_eq!(size % unit_size, 0); + self.type_array(self.type_from_integer(unit), size / unit_size) + } + + pub fn set_struct_body(&self, typ: Struct<'gcc>, fields: &[Type<'gcc>], packed: bool) { + let fields: Vec<_> = fields.iter().enumerate() + .map(|(index, field)| self.context.new_field(None, *field, &format!("field_{}", index))) + .collect(); + typ.set_fields(None, &fields); + if packed { + #[cfg(feature="master")] + typ.as_type().set_packed(); + } + } + + pub fn type_named_struct(&self, name: &str) -> Struct<'gcc> { + self.context.new_opaque_struct_type(None, name) + } + + pub fn type_array(&self, ty: Type<'gcc>, mut len: u64) -> Type<'gcc> { + if let Some(struct_type) = ty.is_struct() { + if struct_type.get_field_count() == 0 { + // NOTE: since gccjit only supports i32 for the array size and libcore's tests uses a + // size of usize::MAX in test_binary_search, we workaround this by setting the size to + // zero for ZSTs. + // FIXME(antoyo): fix gccjit API. + len = 0; + } + } + + // NOTE: see note above. Some other test uses usize::MAX. + if len == u64::MAX { + len = 0; + } + + let len: i32 = len.try_into().expect("array len"); + + self.context.new_array_type(None, ty, len) + } + + pub fn type_bool(&self) -> Type<'gcc> { + self.context.new_type::() + } +} + +pub fn struct_fields<'gcc, 'tcx>(cx: &CodegenCx<'gcc, 'tcx>, layout: TyAndLayout<'tcx>) -> (Vec>, bool) { + let field_count = layout.fields.count(); + + let mut packed = false; + let mut offset = Size::ZERO; + let mut prev_effective_align = layout.align.abi; + let mut result: Vec<_> = Vec::with_capacity(1 + field_count * 2); + for i in layout.fields.index_by_increasing_offset() { + let target_offset = layout.fields.offset(i as usize); + let field = layout.field(cx, i); + let effective_field_align = + layout.align.abi.min(field.align.abi).restrict_for_offset(target_offset); + packed |= effective_field_align < field.align.abi; + + assert!(target_offset >= offset); + let padding = target_offset - offset; + let padding_align = prev_effective_align.min(effective_field_align); + assert_eq!(offset.align_to(padding_align) + padding, target_offset); + result.push(cx.type_padding_filler(padding, padding_align)); + + result.push(field.gcc_type(cx, !field.ty.is_any_ptr())); // FIXME(antoyo): might need to check if the type is inside another, like Box. + offset = target_offset + field.size; + prev_effective_align = effective_field_align; + } + if !layout.is_unsized() && field_count > 0 { + if offset > layout.size { + bug!("layout: {:#?} stride: {:?} offset: {:?}", layout, layout.size, offset); + } + let padding = layout.size - offset; + let padding_align = prev_effective_align; + assert_eq!(offset.align_to(padding_align) + padding, layout.size); + result.push(cx.type_padding_filler(padding, padding_align)); + assert_eq!(result.len(), 1 + field_count * 2); + } + + (result, packed) +} + +impl<'gcc, 'tcx> TypeMembershipMethods<'tcx> for CodegenCx<'gcc, 'tcx> { + fn set_type_metadata(&self, _function: RValue<'gcc>, _typeid: String) { + // Unsupported. + } + + fn typeid_metadata(&self, _typeid: String) -> RValue<'gcc> { + // Unsupported. + self.context.new_rvalue_from_int(self.int_type, 0) + } +} -- cgit v1.2.3