use cranelift_codegen::isa::TargetFrontendConfig; use rustc_index::vec::IndexVec; use rustc_middle::ty::layout::{ FnAbiError, FnAbiOfHelpers, FnAbiRequest, LayoutError, LayoutOfHelpers, }; use rustc_middle::ty::SymbolName; use rustc_target::abi::call::FnAbi; use rustc_target::abi::{Integer, Primitive}; use rustc_target::spec::{HasTargetSpec, Target}; use crate::constant::ConstantCx; use crate::prelude::*; pub(crate) fn pointer_ty(tcx: TyCtxt<'_>) -> types::Type { match tcx.data_layout.pointer_size.bits() { 16 => types::I16, 32 => types::I32, 64 => types::I64, bits => bug!("ptr_sized_integer: unknown pointer bit size {}", bits), } } pub(crate) fn scalar_to_clif_type(tcx: TyCtxt<'_>, scalar: Scalar) -> Type { match scalar.primitive() { Primitive::Int(int, _sign) => match int { Integer::I8 => types::I8, Integer::I16 => types::I16, Integer::I32 => types::I32, Integer::I64 => types::I64, Integer::I128 => types::I128, }, Primitive::F32 => types::F32, Primitive::F64 => types::F64, Primitive::Pointer => pointer_ty(tcx), } } fn clif_type_from_ty<'tcx>(tcx: TyCtxt<'tcx>, ty: Ty<'tcx>) -> Option { Some(match ty.kind() { ty::Bool => types::I8, ty::Uint(size) => match size { UintTy::U8 => types::I8, UintTy::U16 => types::I16, UintTy::U32 => types::I32, UintTy::U64 => types::I64, UintTy::U128 => types::I128, UintTy::Usize => pointer_ty(tcx), }, ty::Int(size) => match size { IntTy::I8 => types::I8, IntTy::I16 => types::I16, IntTy::I32 => types::I32, IntTy::I64 => types::I64, IntTy::I128 => types::I128, IntTy::Isize => pointer_ty(tcx), }, ty::Char => types::I32, ty::Float(size) => match size { FloatTy::F32 => types::F32, FloatTy::F64 => types::F64, }, ty::FnPtr(_) => pointer_ty(tcx), ty::RawPtr(TypeAndMut { ty: pointee_ty, mutbl: _ }) | ty::Ref(_, pointee_ty, _) => { if has_ptr_meta(tcx, *pointee_ty) { return None; } else { pointer_ty(tcx) } } ty::Adt(adt_def, _) if adt_def.repr().simd() => { let (element, count) = match &tcx.layout_of(ParamEnv::reveal_all().and(ty)).unwrap().abi { Abi::Vector { element, count } => (element.clone(), *count), _ => unreachable!(), }; match scalar_to_clif_type(tcx, element).by(u16::try_from(count).unwrap()) { // Cranelift currently only implements icmp for 128bit vectors. Some(vector_ty) if vector_ty.bits() == 128 => vector_ty, _ => return None, } } ty::Param(_) => bug!("ty param {:?}", ty), _ => return None, }) } fn clif_pair_type_from_ty<'tcx>( tcx: TyCtxt<'tcx>, ty: Ty<'tcx>, ) -> Option<(types::Type, types::Type)> { Some(match ty.kind() { ty::Tuple(types) if types.len() == 2 => { let a = clif_type_from_ty(tcx, types[0])?; let b = clif_type_from_ty(tcx, types[1])?; if a.is_vector() || b.is_vector() { return None; } (a, b) } ty::RawPtr(TypeAndMut { ty: pointee_ty, mutbl: _ }) | ty::Ref(_, pointee_ty, _) => { if has_ptr_meta(tcx, *pointee_ty) { (pointer_ty(tcx), pointer_ty(tcx)) } else { return None; } } _ => return None, }) } /// Is a pointer to this type a fat ptr? pub(crate) fn has_ptr_meta<'tcx>(tcx: TyCtxt<'tcx>, ty: Ty<'tcx>) -> bool { let ptr_ty = tcx.mk_ptr(TypeAndMut { ty, mutbl: rustc_hir::Mutability::Not }); match &tcx.layout_of(ParamEnv::reveal_all().and(ptr_ty)).unwrap().abi { Abi::Scalar(_) => false, Abi::ScalarPair(_, _) => true, abi => unreachable!("Abi of ptr to {:?} is {:?}???", ty, abi), } } pub(crate) fn codegen_icmp_imm( fx: &mut FunctionCx<'_, '_, '_>, intcc: IntCC, lhs: Value, rhs: i128, ) -> Value { let lhs_ty = fx.bcx.func.dfg.value_type(lhs); if lhs_ty == types::I128 { // FIXME legalize `icmp_imm.i128` in Cranelift let (lhs_lsb, lhs_msb) = fx.bcx.ins().isplit(lhs); let (rhs_lsb, rhs_msb) = (rhs as u128 as u64 as i64, (rhs as u128 >> 64) as u64 as i64); match intcc { IntCC::Equal => { let lsb_eq = fx.bcx.ins().icmp_imm(IntCC::Equal, lhs_lsb, rhs_lsb); let msb_eq = fx.bcx.ins().icmp_imm(IntCC::Equal, lhs_msb, rhs_msb); fx.bcx.ins().band(lsb_eq, msb_eq) } IntCC::NotEqual => { let lsb_ne = fx.bcx.ins().icmp_imm(IntCC::NotEqual, lhs_lsb, rhs_lsb); let msb_ne = fx.bcx.ins().icmp_imm(IntCC::NotEqual, lhs_msb, rhs_msb); fx.bcx.ins().bor(lsb_ne, msb_ne) } _ => { // if msb_eq { // lsb_cc // } else { // msb_cc // } let msb_eq = fx.bcx.ins().icmp_imm(IntCC::Equal, lhs_msb, rhs_msb); let lsb_cc = fx.bcx.ins().icmp_imm(intcc, lhs_lsb, rhs_lsb); let msb_cc = fx.bcx.ins().icmp_imm(intcc, lhs_msb, rhs_msb); fx.bcx.ins().select(msb_eq, lsb_cc, msb_cc) } } } else { let rhs = i64::try_from(rhs).expect("codegen_icmp_imm rhs out of range for <128bit int"); fx.bcx.ins().icmp_imm(intcc, lhs, rhs) } } pub(crate) fn type_min_max_value( bcx: &mut FunctionBuilder<'_>, ty: Type, signed: bool, ) -> (Value, Value) { assert!(ty.is_int()); if ty == types::I128 { if signed { let min = i128::MIN as u128; let min_lsb = bcx.ins().iconst(types::I64, min as u64 as i64); let min_msb = bcx.ins().iconst(types::I64, (min >> 64) as u64 as i64); let min = bcx.ins().iconcat(min_lsb, min_msb); let max = i128::MAX as u128; let max_lsb = bcx.ins().iconst(types::I64, max as u64 as i64); let max_msb = bcx.ins().iconst(types::I64, (max >> 64) as u64 as i64); let max = bcx.ins().iconcat(max_lsb, max_msb); return (min, max); } else { let min_half = bcx.ins().iconst(types::I64, 0); let min = bcx.ins().iconcat(min_half, min_half); let max_half = bcx.ins().iconst(types::I64, u64::MAX as i64); let max = bcx.ins().iconcat(max_half, max_half); return (min, max); } } let min = match (ty, signed) { (types::I8, false) | (types::I16, false) | (types::I32, false) | (types::I64, false) => { 0i64 } (types::I8, true) => i64::from(i8::MIN), (types::I16, true) => i64::from(i16::MIN), (types::I32, true) => i64::from(i32::MIN), (types::I64, true) => i64::MIN, _ => unreachable!(), }; let max = match (ty, signed) { (types::I8, false) => i64::from(u8::MAX), (types::I16, false) => i64::from(u16::MAX), (types::I32, false) => i64::from(u32::MAX), (types::I64, false) => u64::MAX as i64, (types::I8, true) => i64::from(i8::MAX), (types::I16, true) => i64::from(i16::MAX), (types::I32, true) => i64::from(i32::MAX), (types::I64, true) => i64::MAX, _ => unreachable!(), }; let (min, max) = (bcx.ins().iconst(ty, min), bcx.ins().iconst(ty, max)); (min, max) } pub(crate) fn type_sign(ty: Ty<'_>) -> bool { match ty.kind() { ty::Ref(..) | ty::RawPtr(..) | ty::FnPtr(..) | ty::Char | ty::Uint(..) | ty::Bool => false, ty::Int(..) => true, ty::Float(..) => false, // `signed` is unused for floats _ => panic!("{}", ty), } } pub(crate) struct FunctionCx<'m, 'clif, 'tcx: 'm> { pub(crate) cx: &'clif mut crate::CodegenCx<'tcx>, pub(crate) module: &'m mut dyn Module, pub(crate) tcx: TyCtxt<'tcx>, pub(crate) target_config: TargetFrontendConfig, // Cached from module pub(crate) pointer_type: Type, // Cached from module pub(crate) constants_cx: ConstantCx, pub(crate) instance: Instance<'tcx>, pub(crate) symbol_name: SymbolName<'tcx>, pub(crate) mir: &'tcx Body<'tcx>, pub(crate) fn_abi: Option<&'tcx FnAbi<'tcx, Ty<'tcx>>>, pub(crate) bcx: FunctionBuilder<'clif>, pub(crate) block_map: IndexVec, pub(crate) local_map: IndexVec>, /// When `#[track_caller]` is used, the implicit caller location is stored in this variable. pub(crate) caller_location: Option>, pub(crate) clif_comments: crate::pretty_clif::CommentWriter, pub(crate) source_info_set: indexmap::IndexSet, /// This should only be accessed by `CPlace::new_var`. pub(crate) next_ssa_var: u32, } impl<'tcx> LayoutOfHelpers<'tcx> for FunctionCx<'_, '_, 'tcx> { type LayoutOfResult = TyAndLayout<'tcx>; #[inline] fn handle_layout_err(&self, err: LayoutError<'tcx>, span: Span, ty: Ty<'tcx>) -> ! { RevealAllLayoutCx(self.tcx).handle_layout_err(err, span, ty) } } impl<'tcx> FnAbiOfHelpers<'tcx> for FunctionCx<'_, '_, 'tcx> { type FnAbiOfResult = &'tcx FnAbi<'tcx, Ty<'tcx>>; #[inline] fn handle_fn_abi_err( &self, err: FnAbiError<'tcx>, span: Span, fn_abi_request: FnAbiRequest<'tcx>, ) -> ! { RevealAllLayoutCx(self.tcx).handle_fn_abi_err(err, span, fn_abi_request) } } impl<'tcx> layout::HasTyCtxt<'tcx> for FunctionCx<'_, '_, 'tcx> { fn tcx<'b>(&'b self) -> TyCtxt<'tcx> { self.tcx } } impl<'tcx> rustc_target::abi::HasDataLayout for FunctionCx<'_, '_, 'tcx> { fn data_layout(&self) -> &rustc_target::abi::TargetDataLayout { &self.tcx.data_layout } } impl<'tcx> layout::HasParamEnv<'tcx> for FunctionCx<'_, '_, 'tcx> { fn param_env(&self) -> ParamEnv<'tcx> { ParamEnv::reveal_all() } } impl<'tcx> HasTargetSpec for FunctionCx<'_, '_, 'tcx> { fn target_spec(&self) -> &Target { &self.tcx.sess.target } } impl<'tcx> FunctionCx<'_, '_, 'tcx> { pub(crate) fn monomorphize(&self, value: T) -> T where T: TypeFoldable<'tcx> + Copy, { self.instance.subst_mir_and_normalize_erasing_regions( self.tcx, ty::ParamEnv::reveal_all(), value, ) } pub(crate) fn clif_type(&self, ty: Ty<'tcx>) -> Option { clif_type_from_ty(self.tcx, ty) } pub(crate) fn clif_pair_type(&self, ty: Ty<'tcx>) -> Option<(Type, Type)> { clif_pair_type_from_ty(self.tcx, ty) } pub(crate) fn get_block(&self, bb: BasicBlock) -> Block { *self.block_map.get(bb).unwrap() } pub(crate) fn get_local_place(&mut self, local: Local) -> CPlace<'tcx> { *self.local_map.get(local).unwrap_or_else(|| { panic!("Local {:?} doesn't exist", local); }) } pub(crate) fn set_debug_loc(&mut self, source_info: mir::SourceInfo) { let (index, _) = self.source_info_set.insert_full(source_info); self.bcx.set_srcloc(SourceLoc::new(index as u32)); } // Note: must be kept in sync with get_caller_location from cg_ssa pub(crate) fn get_caller_location(&mut self, mut source_info: mir::SourceInfo) -> CValue<'tcx> { let span_to_caller_location = |fx: &mut FunctionCx<'_, '_, 'tcx>, span: Span| { let topmost = span.ctxt().outer_expn().expansion_cause().unwrap_or(span); let caller = fx.tcx.sess.source_map().lookup_char_pos(topmost.lo()); let const_loc = fx.tcx.const_caller_location(( rustc_span::symbol::Symbol::intern( &caller.file.name.prefer_remapped().to_string_lossy(), ), caller.line as u32, caller.col_display as u32 + 1, )); crate::constant::codegen_const_value(fx, const_loc, fx.tcx.caller_location_ty()) }; // Walk up the `SourceScope`s, in case some of them are from MIR inlining. // If so, the starting `source_info.span` is in the innermost inlined // function, and will be replaced with outer callsite spans as long // as the inlined functions were `#[track_caller]`. loop { let scope_data = &self.mir.source_scopes[source_info.scope]; if let Some((callee, callsite_span)) = scope_data.inlined { // Stop inside the most nested non-`#[track_caller]` function, // before ever reaching its caller (which is irrelevant). if !callee.def.requires_caller_location(self.tcx) { return span_to_caller_location(self, source_info.span); } source_info.span = callsite_span; } // Skip past all of the parents with `inlined: None`. match scope_data.inlined_parent_scope { Some(parent) => source_info.scope = parent, None => break, } } // No inlined `SourceScope`s, or all of them were `#[track_caller]`. self.caller_location.unwrap_or_else(|| span_to_caller_location(self, source_info.span)) } pub(crate) fn anonymous_str(&mut self, msg: &str) -> Value { let mut data_ctx = DataContext::new(); data_ctx.define(msg.as_bytes().to_vec().into_boxed_slice()); let msg_id = self.module.declare_anonymous_data(false, false).unwrap(); // Ignore DuplicateDefinition error, as the data will be the same let _ = self.module.define_data(msg_id, &data_ctx); let local_msg_id = self.module.declare_data_in_func(msg_id, self.bcx.func); if self.clif_comments.enabled() { self.add_comment(local_msg_id, msg); } self.bcx.ins().global_value(self.pointer_type, local_msg_id) } } pub(crate) struct RevealAllLayoutCx<'tcx>(pub(crate) TyCtxt<'tcx>); impl<'tcx> LayoutOfHelpers<'tcx> for RevealAllLayoutCx<'tcx> { type LayoutOfResult = TyAndLayout<'tcx>; #[inline] fn handle_layout_err(&self, err: LayoutError<'tcx>, span: Span, ty: Ty<'tcx>) -> ! { if let layout::LayoutError::SizeOverflow(_) = err { self.0.sess.span_fatal(span, &err.to_string()) } else { span_bug!(span, "failed to get layout for `{}`: {}", ty, err) } } } impl<'tcx> FnAbiOfHelpers<'tcx> for RevealAllLayoutCx<'tcx> { type FnAbiOfResult = &'tcx FnAbi<'tcx, Ty<'tcx>>; #[inline] fn handle_fn_abi_err( &self, err: FnAbiError<'tcx>, span: Span, fn_abi_request: FnAbiRequest<'tcx>, ) -> ! { if let FnAbiError::Layout(LayoutError::SizeOverflow(_)) = err { self.0.sess.span_fatal(span, &err.to_string()) } else { match fn_abi_request { FnAbiRequest::OfFnPtr { sig, extra_args } => { span_bug!( span, "`fn_abi_of_fn_ptr({}, {:?})` failed: {}", sig, extra_args, err ); } FnAbiRequest::OfInstance { instance, extra_args } => { span_bug!( span, "`fn_abi_of_instance({}, {:?})` failed: {}", instance, extra_args, err ); } } } } } impl<'tcx> layout::HasTyCtxt<'tcx> for RevealAllLayoutCx<'tcx> { fn tcx<'b>(&'b self) -> TyCtxt<'tcx> { self.0 } } impl<'tcx> rustc_target::abi::HasDataLayout for RevealAllLayoutCx<'tcx> { fn data_layout(&self) -> &rustc_target::abi::TargetDataLayout { &self.0.data_layout } } impl<'tcx> layout::HasParamEnv<'tcx> for RevealAllLayoutCx<'tcx> { fn param_env(&self) -> ParamEnv<'tcx> { ParamEnv::reveal_all() } } impl<'tcx> HasTargetSpec for RevealAllLayoutCx<'tcx> { fn target_spec(&self) -> &Target { &self.0.sess.target } }