bbe1d28496
This is done mostly so that we can refer to MIR types in csearch and other metadata related area.
191 lines
6.8 KiB
Rust
191 lines
6.8 KiB
Rust
// Copyright 2015 The Rust Project Developers. See the COPYRIGHT
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// file at the top-level directory of this distribution and at
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// http://rust-lang.org/COPYRIGHT.
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//
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// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
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// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
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// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
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// option. This file may not be copied, modified, or distributed
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// except according to those terms.
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/*!
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* Methods for the various MIR types. These are intended for use after
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* building is complete.
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*/
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use mir::repr::*;
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use middle::subst::Substs;
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use middle::ty::{self, AdtDef, Ty};
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use rustc_front::hir;
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#[derive(Copy, Clone, Debug)]
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pub enum LvalueTy<'tcx> {
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/// Normal type.
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Ty { ty: Ty<'tcx> },
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/// Downcast to a particular variant of an enum.
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Downcast { adt_def: AdtDef<'tcx>,
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substs: &'tcx Substs<'tcx>,
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variant_index: usize },
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}
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impl<'tcx> LvalueTy<'tcx> {
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pub fn from_ty(ty: Ty<'tcx>) -> LvalueTy<'tcx> {
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LvalueTy::Ty { ty: ty }
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}
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pub fn to_ty(&self, tcx: &ty::ctxt<'tcx>) -> Ty<'tcx> {
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match *self {
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LvalueTy::Ty { ty } =>
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ty,
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LvalueTy::Downcast { adt_def, substs, variant_index: _ } =>
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tcx.mk_enum(adt_def, substs),
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}
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}
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pub fn projection_ty(self,
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tcx: &ty::ctxt<'tcx>,
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elem: &LvalueElem<'tcx>)
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-> LvalueTy<'tcx>
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{
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match *elem {
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ProjectionElem::Deref =>
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LvalueTy::Ty {
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ty: self.to_ty(tcx).builtin_deref(true, ty::LvaluePreference::NoPreference)
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.unwrap()
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.ty
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},
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ProjectionElem::Index(_) | ProjectionElem::ConstantIndex { .. } =>
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LvalueTy::Ty {
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ty: self.to_ty(tcx).builtin_index().unwrap()
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},
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ProjectionElem::Downcast(adt_def1, index) =>
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match self.to_ty(tcx).sty {
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ty::TyEnum(adt_def, substs) => {
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assert!(index < adt_def.variants.len());
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assert_eq!(adt_def, adt_def1);
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LvalueTy::Downcast { adt_def: adt_def,
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substs: substs,
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variant_index: index }
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}
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_ => {
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tcx.sess.bug(&format!("cannot downcast non-enum type: `{:?}`", self))
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}
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},
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ProjectionElem::Field(field) => {
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let field_ty = match self {
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LvalueTy::Ty { ty } => match ty.sty {
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ty::TyStruct(adt_def, substs) =>
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adt_def.struct_variant().fields[field.index()].ty(tcx, substs),
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ty::TyTuple(ref tys) =>
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tys[field.index()],
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ty::TyClosure(_, ref closure_substs) =>
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closure_substs.upvar_tys[field.index()],
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_ =>
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tcx.sess.bug(&format!("cannot get field of type: `{:?}`", ty)),
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},
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LvalueTy::Downcast { adt_def, substs, variant_index } =>
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adt_def.variants[variant_index].fields[field.index()].ty(tcx, substs),
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};
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LvalueTy::Ty { ty: field_ty }
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}
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}
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}
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}
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impl<'tcx> Mir<'tcx> {
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pub fn operand_ty(&self,
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tcx: &ty::ctxt<'tcx>,
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operand: &Operand<'tcx>)
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-> Ty<'tcx>
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{
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match *operand {
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Operand::Consume(ref l) => self.lvalue_ty(tcx, l).to_ty(tcx),
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Operand::Constant(ref c) => c.ty,
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}
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}
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pub fn binop_ty(&self,
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tcx: &ty::ctxt<'tcx>,
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op: BinOp,
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lhs_ty: Ty<'tcx>,
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rhs_ty: Ty<'tcx>)
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-> Ty<'tcx>
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{
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// FIXME: handle SIMD correctly
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match op {
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BinOp::Add | BinOp::Sub | BinOp::Mul | BinOp::Div | BinOp::Rem |
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BinOp::BitXor | BinOp::BitAnd | BinOp::BitOr => {
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// these should be integers or floats of the same size.
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assert_eq!(lhs_ty, rhs_ty);
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lhs_ty
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}
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BinOp::Shl | BinOp::Shr => {
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lhs_ty // lhs_ty can be != rhs_ty
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}
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BinOp::Eq | BinOp::Lt | BinOp::Le |
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BinOp::Ne | BinOp::Ge | BinOp::Gt => {
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tcx.types.bool
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}
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}
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}
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pub fn lvalue_ty(&self,
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tcx: &ty::ctxt<'tcx>,
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lvalue: &Lvalue<'tcx>)
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-> LvalueTy<'tcx>
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{
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match *lvalue {
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Lvalue::Var(index) =>
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LvalueTy::Ty { ty: self.var_decls[index as usize].ty },
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Lvalue::Temp(index) =>
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LvalueTy::Ty { ty: self.temp_decls[index as usize].ty },
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Lvalue::Arg(index) =>
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LvalueTy::Ty { ty: self.arg_decls[index as usize].ty },
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Lvalue::Static(def_id) =>
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LvalueTy::Ty { ty: tcx.lookup_item_type(def_id).ty },
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Lvalue::ReturnPointer =>
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LvalueTy::Ty { ty: self.return_ty.unwrap() },
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Lvalue::Projection(ref proj) =>
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self.lvalue_ty(tcx, &proj.base).projection_ty(tcx, &proj.elem)
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}
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}
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}
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impl BorrowKind {
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pub fn to_mutbl_lossy(self) -> hir::Mutability {
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match self {
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BorrowKind::Mut => hir::MutMutable,
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BorrowKind::Shared => hir::MutImmutable,
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// We have no type corresponding to a unique imm borrow, so
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// use `&mut`. It gives all the capabilities of an `&uniq`
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// and hence is a safe "over approximation".
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BorrowKind::Unique => hir::MutMutable,
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}
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}
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}
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impl BinOp {
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pub fn to_hir_binop(self) -> hir::BinOp_ {
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match self {
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BinOp::Add => hir::BinOp_::BiAdd,
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BinOp::Sub => hir::BinOp_::BiSub,
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BinOp::Mul => hir::BinOp_::BiMul,
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BinOp::Div => hir::BinOp_::BiDiv,
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BinOp::Rem => hir::BinOp_::BiRem,
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BinOp::BitXor => hir::BinOp_::BiBitXor,
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BinOp::BitAnd => hir::BinOp_::BiBitAnd,
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BinOp::BitOr => hir::BinOp_::BiBitOr,
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BinOp::Shl => hir::BinOp_::BiShl,
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BinOp::Shr => hir::BinOp_::BiShr,
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BinOp::Eq => hir::BinOp_::BiEq,
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BinOp::Ne => hir::BinOp_::BiNe,
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BinOp::Lt => hir::BinOp_::BiLt,
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BinOp::Gt => hir::BinOp_::BiGt,
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BinOp::Le => hir::BinOp_::BiLe,
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BinOp::Ge => hir::BinOp_::BiGe
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}
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}
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}
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