// Copyright 2020 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 source import ( "context" "go/ast" "go/types" ) // builtinArgKind determines the expected object kind for a builtin // argument. It attempts to use the AST hints from builtin.go where // possible. func (c *completer) builtinArgKind(ctx context.Context, obj types.Object, call *ast.CallExpr) objKind { builtin, err := c.snapshot.BuiltinPackage(ctx) if err != nil { return 0 } exprIdx := exprAtPos(c.pos, call.Args) builtinObj := builtin.Package.Scope.Lookup(obj.Name()) if builtinObj == nil { return 0 } decl, ok := builtinObj.Decl.(*ast.FuncDecl) if !ok || exprIdx >= len(decl.Type.Params.List) { return 0 } switch ptyp := decl.Type.Params.List[exprIdx].Type.(type) { case *ast.ChanType: return kindChan case *ast.ArrayType: return kindSlice case *ast.MapType: return kindMap case *ast.Ident: switch ptyp.Name { case "Type": switch obj.Name() { case "make": return kindChan | kindSlice | kindMap case "len": return kindSlice | kindMap | kindArray | kindString | kindChan case "cap": return kindSlice | kindArray | kindChan } } } return 0 } // builtinArgType infers the type of an argument to a builtin // function. parentInf is the inferred type info for the builtin // call's parent node. func (c *completer) builtinArgType(obj types.Object, call *ast.CallExpr, parentInf candidateInference) candidateInference { var ( exprIdx = exprAtPos(c.pos, call.Args) inf = candidateInference{} ) switch obj.Name() { case "append": if parentInf.objType == nil { break } inf.objType = parentInf.objType // Check if we are completing the variadic append() param. if exprIdx == 1 && len(call.Args) <= 2 { inf.variadicType = deslice(inf.objType) } else if exprIdx > 0 { // If we are completing an individual element of the variadic // param, "deslice" the expected type. inf.objType = deslice(inf.objType) } case "delete": if exprIdx > 0 && len(call.Args) > 0 { // Try to fill in expected type of map key. firstArgType := c.pkg.GetTypesInfo().TypeOf(call.Args[0]) if firstArgType != nil { if mt, ok := firstArgType.Underlying().(*types.Map); ok { inf.objType = mt.Key() } } } case "copy": var t1, t2 types.Type if len(call.Args) > 0 { t1 = c.pkg.GetTypesInfo().TypeOf(call.Args[0]) if len(call.Args) > 1 { t2 = c.pkg.GetTypesInfo().TypeOf(call.Args[1]) } } // Fill in expected type of either arg if the other is already present. if exprIdx == 1 && t1 != nil { inf.objType = t1 } else if exprIdx == 0 && t2 != nil { inf.objType = t2 } case "new": inf.typeName.wantTypeName = true if parentInf.objType != nil { // Expected type for "new" is the de-pointered parent type. if ptr, ok := parentInf.objType.Underlying().(*types.Pointer); ok { inf.objType = ptr.Elem() } } case "make": if exprIdx == 0 { inf.typeName.wantTypeName = true inf.objType = parentInf.objType } else { inf.objType = types.Typ[types.Int] } } return inf }