// Copyright 2021 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package noder import ( "go/constant" "cmd/compile/internal/base" "cmd/compile/internal/ir" "cmd/compile/internal/typecheck" "cmd/compile/internal/types" "cmd/internal/src" ) // Helpers for constructing typed IR nodes. // // TODO(mdempsky): Move into their own package so they can be easily // reused by iimport and frontend optimizations. // // TODO(mdempsky): Update to consistently return already typechecked // results, rather than leaving the caller responsible for using // typecheck.Expr or typecheck.Stmt. type ImplicitNode interface { ir.Node SetImplicit(x bool) } // Implicit returns n after marking it as Implicit. func Implicit(n ImplicitNode) ImplicitNode { n.SetImplicit(true) return n } // typed returns n after setting its type to typ. func typed(typ *types.Type, n ir.Node) ir.Node { n.SetType(typ) n.SetTypecheck(1) return n } // Values func Const(pos src.XPos, typ *types.Type, val constant.Value) ir.Node { return typed(typ, ir.NewBasicLit(pos, val)) } func Nil(pos src.XPos, typ *types.Type) ir.Node { return typed(typ, ir.NewNilExpr(pos)) } // Expressions func Addr(pos src.XPos, x ir.Node) *ir.AddrExpr { // TODO(mdempsky): Avoid typecheck.Expr. Probably just need to set OPTRLIT when appropriate. n := typecheck.Expr(typecheck.NodAddrAt(pos, x)).(*ir.AddrExpr) typed(types.NewPtr(x.Type()), n) return n } func Assert(pos src.XPos, x ir.Node, typ *types.Type) ir.Node { return typed(typ, ir.NewTypeAssertExpr(pos, x, nil)) } func Binary(pos src.XPos, op ir.Op, x, y ir.Node) ir.Node { switch op { case ir.OANDAND, ir.OOROR: return typed(x.Type(), ir.NewLogicalExpr(pos, op, x, y)) case ir.OADD: if x.Type().IsString() { // TODO(mdempsky): Construct OADDSTR directly. return typecheck.Expr(ir.NewBinaryExpr(pos, op, x, y)) } fallthrough default: return typed(x.Type(), ir.NewBinaryExpr(pos, op, x, y)) } } func Call(pos src.XPos, fun ir.Node, args []ir.Node, dots bool) ir.Node { // TODO(mdempsky): This should not be so difficult. n := ir.NewCallExpr(pos, ir.OCALL, fun, args) n.IsDDD = dots // Actually a type conversion. if fun.Op() == ir.OTYPE { return typecheck.Expr(n) } if fun, ok := fun.(*ir.Name); ok && fun.BuiltinOp != 0 { switch fun.BuiltinOp { case ir.OCLOSE, ir.ODELETE, ir.OPANIC, ir.OPRINT, ir.OPRINTN: return typecheck.Stmt(n) default: return typecheck.Expr(n) } } // Add information, now that we know that fun is actually being called. switch fun := fun.(type) { case *ir.ClosureExpr: fun.Func.SetClosureCalled(true) case *ir.SelectorExpr: if fun.Op() == ir.OCALLPART { op := ir.ODOTMETH if fun.X.Type().IsInterface() { op = ir.ODOTINTER } fun.SetOp(op) // Set the type to include the receiver, since that's what // later parts of the compiler expect fun.SetType(fun.Selection.Type) } } typecheck.Call(n) return n } func Compare(pos src.XPos, typ *types.Type, op ir.Op, x, y ir.Node) ir.Node { n := ir.NewBinaryExpr(pos, op, x, y) if !types.Identical(x.Type(), y.Type()) { // TODO(mdempsky): Handle subtleties of constructing mixed-typed comparisons. n = typecheck.Expr(n).(*ir.BinaryExpr) } return typed(typ, n) } func Deref(pos src.XPos, x ir.Node) *ir.StarExpr { n := ir.NewStarExpr(pos, x) typed(x.Type().Elem(), n) return n } func DotField(pos src.XPos, x ir.Node, index int) *ir.SelectorExpr { op, typ := ir.ODOT, x.Type() if typ.IsPtr() { op, typ = ir.ODOTPTR, typ.Elem() } if !typ.IsStruct() { base.FatalfAt(pos, "DotField of non-struct: %L", x) } // TODO(mdempsky): This is the backend's responsibility. types.CalcSize(typ) field := typ.Field(index) return dot(pos, field.Type, op, x, field) } func DotMethod(pos src.XPos, x ir.Node, index int) *ir.SelectorExpr { method := method(x.Type(), index) // Method value. typ := typecheck.NewMethodType(method.Type, nil) return dot(pos, typ, ir.OCALLPART, x, method) } // MethodExpr returns a OMETHEXPR node with the indicated index into the methods // of typ. The receiver type is set from recv, which is different from typ if the // method was accessed via embedded fields. Similarly, the X value of the // ir.SelectorExpr is recv, the original OTYPE node before passing through the // embedded fields. func MethodExpr(pos src.XPos, recv ir.Node, embed *types.Type, index int) *ir.SelectorExpr { method := method(embed, index) typ := typecheck.NewMethodType(method.Type, recv.Type()) // The method expression T.m requires a wrapper when T // is different from m's declared receiver type. We // normally generate these wrappers while writing out // runtime type descriptors, which is always done for // types declared at package scope. However, we need // to make sure to generate wrappers for anonymous // receiver types too. if recv.Sym() == nil { typecheck.NeedRuntimeType(recv.Type()) } return dot(pos, typ, ir.OMETHEXPR, recv, method) } func dot(pos src.XPos, typ *types.Type, op ir.Op, x ir.Node, selection *types.Field) *ir.SelectorExpr { n := ir.NewSelectorExpr(pos, op, x, selection.Sym) n.Selection = selection typed(typ, n) return n } // TODO(mdempsky): Move to package types. func method(typ *types.Type, index int) *types.Field { if typ.IsInterface() { return typ.Field(index) } return types.ReceiverBaseType(typ).Methods().Index(index) } func Index(pos src.XPos, x, index ir.Node) ir.Node { // TODO(mdempsky): Avoid typecheck.Expr. return typecheck.Expr(ir.NewIndexExpr(pos, x, index)) } func Slice(pos src.XPos, x, low, high, max ir.Node) ir.Node { op := ir.OSLICE if max != nil { op = ir.OSLICE3 } // TODO(mdempsky): Avoid typecheck.Expr. return typecheck.Expr(ir.NewSliceExpr(pos, op, x, low, high, max)) } func Unary(pos src.XPos, op ir.Op, x ir.Node) ir.Node { switch op { case ir.OADDR: return Addr(pos, x) case ir.ODEREF: return Deref(pos, x) } typ := x.Type() if op == ir.ORECV { typ = typ.Elem() } return typed(typ, ir.NewUnaryExpr(pos, op, x)) } // Statements var one = constant.MakeInt64(1) func IncDec(pos src.XPos, op ir.Op, x ir.Node) ir.Node { x = typecheck.AssignExpr(x) return ir.NewAssignOpStmt(pos, op, x, typecheck.DefaultLit(ir.NewBasicLit(pos, one), x.Type())) }