mirror of
https://github.com/golang/go
synced 2024-11-18 21:54:49 -07:00
2e33158b60
Users should be familiar with the sizes of all other types. Currently we assume amd64 (as do other parts of the oracle, e.g. go/build tags). Will parameterize later. R=crawshaw CC=golang-dev, gri https://golang.org/cl/29710043
960 lines
26 KiB
Go
960 lines
26 KiB
Go
// Copyright 2013 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package oracle
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import (
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"bytes"
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"fmt"
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"go/ast"
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"go/token"
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"os"
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"sort"
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"strconv"
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"strings"
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"code.google.com/p/go.tools/go/exact"
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"code.google.com/p/go.tools/go/types"
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"code.google.com/p/go.tools/importer"
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"code.google.com/p/go.tools/oracle/serial"
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"code.google.com/p/go.tools/pointer"
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"code.google.com/p/go.tools/ssa"
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)
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// describe describes the syntax node denoted by the query position,
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// including:
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// - its syntactic category
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// - the location of the definition of its referent (for identifiers)
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// - its type and method set (for an expression or type expression)
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// - its points-to set (for a pointer-like expression)
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// - its dynamic types (for an interface, reflect.Value, or
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// reflect.Type expression) and their points-to sets.
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//
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// All printed sets are sorted to ensure determinism.
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//
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func describe(o *Oracle, qpos *QueryPos) (queryResult, error) {
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if false { // debugging
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o.fprintf(os.Stderr, qpos.path[0], "you selected: %s %s",
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importer.NodeDescription(qpos.path[0]), pathToString2(qpos.path))
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}
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path, action := findInterestingNode(qpos.info, qpos.path)
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switch action {
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case actionExpr:
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return describeValue(o, qpos, path)
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case actionType:
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return describeType(o, qpos, path)
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case actionPackage:
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return describePackage(o, qpos, path)
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case actionStmt:
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return describeStmt(o, qpos, path)
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case actionUnknown:
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return &describeUnknownResult{path[0]}, nil
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default:
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panic(action) // unreachable
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}
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}
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type describeUnknownResult struct {
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node ast.Node
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}
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func (r *describeUnknownResult) display(printf printfFunc) {
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// Nothing much to say about misc syntax.
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printf(r.node, "%s", importer.NodeDescription(r.node))
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}
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func (r *describeUnknownResult) toSerial(res *serial.Result, fset *token.FileSet) {
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res.Describe = &serial.Describe{
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Desc: importer.NodeDescription(r.node),
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Pos: fset.Position(r.node.Pos()).String(),
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}
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}
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type action int
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const (
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actionUnknown action = iota // None of the below
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actionExpr // FuncDecl, true Expr or Ident(types.{Const,Var})
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actionType // type Expr or Ident(types.TypeName).
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actionStmt // Stmt or Ident(types.Label)
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actionPackage // Ident(types.Package) or ImportSpec
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)
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// findInterestingNode classifies the syntax node denoted by path as one of:
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// - an expression, part of an expression or a reference to a constant
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// or variable;
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// - a type, part of a type, or a reference to a named type;
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// - a statement, part of a statement, or a label referring to a statement;
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// - part of a package declaration or import spec.
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// - none of the above.
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// and returns the most "interesting" associated node, which may be
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// the same node, an ancestor or a descendent.
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//
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func findInterestingNode(pkginfo *importer.PackageInfo, path []ast.Node) ([]ast.Node, action) {
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// TODO(adonovan): integrate with go/types/stdlib_test.go and
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// apply this to every AST node we can find to make sure it
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// doesn't crash.
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// TODO(adonovan): audit for ParenExpr safety, esp. since we
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// traverse up and down.
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// TODO(adonovan): if the users selects the "." in
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// "fmt.Fprintf()", they'll get an ambiguous selection error;
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// we won't even reach here. Can we do better?
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// TODO(adonovan): describing a field within 'type T struct {...}'
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// describes the (anonymous) struct type and concludes "no methods".
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// We should ascend to the enclosing type decl, if any.
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for len(path) > 0 {
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switch n := path[0].(type) {
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case *ast.GenDecl:
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if len(n.Specs) == 1 {
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// Descend to sole {Import,Type,Value}Spec child.
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path = append([]ast.Node{n.Specs[0]}, path...)
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continue
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}
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return path, actionUnknown // uninteresting
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case *ast.FuncDecl:
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// Descend to function name.
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path = append([]ast.Node{n.Name}, path...)
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continue
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case *ast.ImportSpec:
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return path, actionPackage
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case *ast.ValueSpec:
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if len(n.Names) == 1 {
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// Descend to sole Ident child.
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path = append([]ast.Node{n.Names[0]}, path...)
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continue
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}
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return path, actionUnknown // uninteresting
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case *ast.TypeSpec:
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// Descend to type name.
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path = append([]ast.Node{n.Name}, path...)
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continue
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case ast.Stmt:
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return path, actionStmt
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case *ast.ArrayType,
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*ast.StructType,
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*ast.FuncType,
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*ast.InterfaceType,
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*ast.MapType,
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*ast.ChanType:
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return path, actionType
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case *ast.Comment, *ast.CommentGroup, *ast.File, *ast.KeyValueExpr, *ast.CommClause:
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return path, actionUnknown // uninteresting
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case *ast.Ellipsis:
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// Continue to enclosing node.
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// e.g. [...]T in ArrayType
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// f(x...) in CallExpr
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// f(x...T) in FuncType
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case *ast.Field:
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// TODO(adonovan): this needs more thought,
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// since fields can be so many things.
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if len(n.Names) == 1 {
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// Descend to sole Ident child.
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path = append([]ast.Node{n.Names[0]}, path...)
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continue
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}
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// Zero names (e.g. anon field in struct)
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// or multiple field or param names:
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// continue to enclosing field list.
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case *ast.FieldList:
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// Continue to enclosing node:
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// {Struct,Func,Interface}Type or FuncDecl.
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case *ast.BasicLit:
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if _, ok := path[1].(*ast.ImportSpec); ok {
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return path[1:], actionPackage
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}
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return path, actionExpr
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case *ast.SelectorExpr:
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if pkginfo.ObjectOf(n.Sel) == nil {
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// Is this reachable?
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return path, actionUnknown
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}
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// Descend to .Sel child.
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path = append([]ast.Node{n.Sel}, path...)
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continue
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case *ast.Ident:
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switch pkginfo.ObjectOf(n).(type) {
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case *types.PkgName:
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return path, actionPackage
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case *types.Const:
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return path, actionExpr
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case *types.Label:
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return path, actionStmt
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case *types.TypeName:
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return path, actionType
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case *types.Var:
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// For x in 'struct {x T}', return struct type, for now.
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if _, ok := path[1].(*ast.Field); ok {
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_ = path[2].(*ast.FieldList) // assertion
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if _, ok := path[3].(*ast.StructType); ok {
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return path[3:], actionType
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}
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}
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return path, actionExpr
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case *types.Func:
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// For f in 'interface {f()}', return the interface type, for now.
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if _, ok := path[1].(*ast.Field); ok {
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_ = path[2].(*ast.FieldList) // assertion
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if _, ok := path[3].(*ast.InterfaceType); ok {
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return path[3:], actionType
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}
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}
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return path, actionExpr
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case *types.Builtin:
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// For reference to built-in function, return enclosing call.
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path = path[1:] // ascend to enclosing function call
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continue
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}
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// No object.
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switch path[1].(type) {
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case *ast.SelectorExpr:
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// Return enclosing selector expression.
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return path[1:], actionExpr
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case *ast.Field:
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// TODO(adonovan): test this.
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// e.g. all f in:
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// struct { f, g int }
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// interface { f() }
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// func (f T) method(f, g int) (f, g bool)
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//
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// switch path[3].(type) {
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// case *ast.FuncDecl:
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// case *ast.StructType:
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// case *ast.InterfaceType:
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// }
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//
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// return path[1:], actionExpr
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//
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// Unclear what to do with these.
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// Struct.Fields -- field
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// Interface.Methods -- field
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// FuncType.{Params.Results} -- actionExpr
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// FuncDecl.Recv -- actionExpr
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case *ast.File:
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// 'package foo'
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return path, actionPackage
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case *ast.ImportSpec:
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// TODO(adonovan): fix: why no package object? go/types bug?
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return path[1:], actionPackage
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default:
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// e.g. blank identifier (go/types bug?)
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// or y in "switch y := x.(type)" (go/types bug?)
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fmt.Printf("unknown reference %s in %T\n", n, path[1])
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return path, actionUnknown
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}
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case *ast.StarExpr:
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if pkginfo.IsType(n) {
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return path, actionType
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}
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return path, actionExpr
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case ast.Expr:
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// All Expr but {BasicLit,Ident,StarExpr} are
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// "true" expressions that evaluate to a value.
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return path, actionExpr
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}
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// Ascend to parent.
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path = path[1:]
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}
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return nil, actionUnknown // unreachable
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}
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// ---- VALUE ------------------------------------------------------------
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// ssaValueForIdent returns the ssa.Value for the ast.Ident whose path
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// to the root of the AST is path. isAddr reports whether the
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// ssa.Value is the address denoted by the ast.Ident, not its value.
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// ssaValueForIdent may return a nil Value without an error to
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// indicate the pointer analysis is not appropriate.
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//
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func ssaValueForIdent(prog *ssa.Program, qinfo *importer.PackageInfo, obj types.Object, path []ast.Node) (value ssa.Value, isAddr bool, err error) {
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if obj, ok := obj.(*types.Var); ok {
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pkg := prog.Package(qinfo.Pkg)
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pkg.Build()
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if v, addr := prog.VarValue(obj, pkg, path); v != nil {
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// Don't run pointer analysis on a ref to a const expression.
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if _, ok := v.(*ssa.Const); ok {
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return
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}
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return v, addr, nil
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}
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return nil, false, fmt.Errorf("can't locate SSA Value for var %s", obj.Name())
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}
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// Don't run pointer analysis on const/func objects.
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return
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}
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// ssaValueForExpr returns the ssa.Value of the non-ast.Ident
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// expression whose path to the root of the AST is path. It may
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// return a nil Value without an error to indicate the pointer
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// analysis is not appropriate.
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//
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func ssaValueForExpr(prog *ssa.Program, qinfo *importer.PackageInfo, path []ast.Node) (value ssa.Value, isAddr bool, err error) {
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pkg := prog.Package(qinfo.Pkg)
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pkg.SetDebugMode(true)
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pkg.Build()
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fn := ssa.EnclosingFunction(pkg, path)
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if fn == nil {
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return nil, false, fmt.Errorf("no SSA function built for this location (dead code?)")
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}
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if v, addr := fn.ValueForExpr(path[0].(ast.Expr)); v != nil {
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return v, addr, nil
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}
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return nil, false, fmt.Errorf("can't locate SSA Value for expression in %s", fn)
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}
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func describeValue(o *Oracle, qpos *QueryPos, path []ast.Node) (*describeValueResult, error) {
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var expr ast.Expr
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var obj types.Object
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switch n := path[0].(type) {
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case *ast.ValueSpec:
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// ambiguous ValueSpec containing multiple names
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return nil, fmt.Errorf("multiple value specification")
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case *ast.Ident:
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obj = qpos.info.ObjectOf(n)
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expr = n
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case ast.Expr:
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expr = n
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default:
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// Is this reachable?
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return nil, fmt.Errorf("unexpected AST for expr: %T", n)
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}
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typ := qpos.info.TypeOf(expr)
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constVal := qpos.info.ValueOf(expr)
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// From this point on, we cannot fail with an error.
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// Failure to run the pointer analysis will be reported later.
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//
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// Our disposition to pointer analysis may be one of the following:
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// - ok: ssa.Value was const or func.
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// - error: no ssa.Value for expr (e.g. trivially dead code)
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// - ok: ssa.Value is non-pointerlike
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// - error: no Pointer for ssa.Value (e.g. analytically unreachable)
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// - ok: Pointer has empty points-to set
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// - ok: Pointer has non-empty points-to set
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// ptaErr is non-nil only in the "error:" cases.
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var ptaErr error
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var ptrs []pointerResult
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// Only run pointer analysis on pointerlike expression types.
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if pointer.CanPoint(typ) {
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// Determine the ssa.Value for the expression.
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var value ssa.Value
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var isAddr bool
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if obj != nil {
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// def/ref of func/var/const object
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value, isAddr, ptaErr = ssaValueForIdent(o.prog, qpos.info, obj, path)
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} else {
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// any other expression
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if qpos.info.ValueOf(path[0].(ast.Expr)) == nil { // non-constant?
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value, isAddr, ptaErr = ssaValueForExpr(o.prog, qpos.info, path)
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}
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}
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if value != nil {
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ptrs, ptaErr = describePointer(o, value, isAddr)
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}
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}
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return &describeValueResult{
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qpos: qpos,
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expr: expr,
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typ: typ,
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constVal: constVal,
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obj: obj,
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ptaErr: ptaErr,
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ptrs: ptrs,
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}, nil
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}
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// describePointer runs the pointer analysis of the selected SSA value.
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func describePointer(o *Oracle, v ssa.Value, indirect bool) (ptrs []pointerResult, err error) {
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buildSSA(o)
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// TODO(adonovan): don't run indirect pointer analysis on non-ptr-ptrlike types.
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o.config.Queries = map[ssa.Value]pointer.Indirect{v: pointer.Indirect(indirect)}
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ptares := ptrAnalysis(o)
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// Combine the PT sets from all contexts.
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pointers := ptares.Queries[v]
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if pointers == nil {
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return nil, fmt.Errorf("PTA did not encounter this expression (dead code?)")
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}
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pts := pointer.PointsToCombined(pointers)
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if pointer.CanHaveDynamicTypes(v.Type()) {
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// Show concrete types for interface/reflect.Value expression.
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if concs := pts.DynamicTypes(); concs.Len() > 0 {
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concs.Iterate(func(conc types.Type, pta interface{}) {
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combined := pointer.PointsToCombined(pta.([]pointer.Pointer))
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labels := combined.Labels()
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sort.Sort(byPosAndString(labels)) // to ensure determinism
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ptrs = append(ptrs, pointerResult{conc, labels})
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})
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}
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} else {
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// Show labels for other expressions.
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labels := pts.Labels()
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sort.Sort(byPosAndString(labels)) // to ensure determinism
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ptrs = append(ptrs, pointerResult{v.Type(), labels})
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}
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sort.Sort(byTypeString(ptrs)) // to ensure determinism
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return ptrs, nil
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}
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type pointerResult struct {
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typ types.Type // type of the pointer (always concrete)
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labels []*pointer.Label
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}
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type describeValueResult struct {
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qpos *QueryPos
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expr ast.Expr // query node
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typ types.Type // type of expression
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constVal exact.Value // value of expression, if constant
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obj types.Object // var/func/const object, if expr was Ident
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ptaErr error // reason why pointer analysis couldn't be run, or failed
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ptrs []pointerResult // pointer info (typ is concrete => len==1)
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}
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func (r *describeValueResult) display(printf printfFunc) {
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var prefix, suffix string
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if r.constVal != nil {
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suffix = fmt.Sprintf(" of constant value %s", r.constVal)
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}
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switch obj := r.obj.(type) {
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case *types.Func:
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if recv := obj.Type().(*types.Signature).Recv(); recv != nil {
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if _, ok := recv.Type().Underlying().(*types.Interface); ok {
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prefix = "interface method "
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} else {
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prefix = "method "
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}
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}
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}
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// Describe the expression.
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if r.obj != nil {
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if r.obj.Pos() == r.expr.Pos() {
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// defining ident
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printf(r.expr, "definition of %s%s%s", prefix, r.qpos.ObjectString(r.obj), suffix)
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} else {
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// referring ident
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printf(r.expr, "reference to %s%s%s", prefix, r.qpos.ObjectString(r.obj), suffix)
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if def := r.obj.Pos(); def != token.NoPos {
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printf(def, "defined here")
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}
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}
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} else {
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desc := importer.NodeDescription(r.expr)
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if suffix != "" {
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// constant expression
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printf(r.expr, "%s%s", desc, suffix)
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} else {
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// non-constant expression
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printf(r.expr, "%s of type %s", desc, r.qpos.TypeString(r.typ))
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}
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}
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// pointer analysis could not be run
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if r.ptaErr != nil {
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printf(r.expr, "no points-to information: %s", r.ptaErr)
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return
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}
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if r.ptrs == nil {
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return // PTA was not invoked (not an error)
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}
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// Display the results of pointer analysis.
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if pointer.CanHaveDynamicTypes(r.typ) {
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// Show concrete types for interface, reflect.Type or
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// reflect.Value expression.
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if len(r.ptrs) > 0 {
|
|
printf(r.qpos, "this %s may contain these dynamic types:", r.qpos.TypeString(r.typ))
|
|
for _, ptr := range r.ptrs {
|
|
var obj types.Object
|
|
if nt, ok := deref(ptr.typ).(*types.Named); ok {
|
|
obj = nt.Obj()
|
|
}
|
|
if len(ptr.labels) > 0 {
|
|
printf(obj, "\t%s, may point to:", r.qpos.TypeString(ptr.typ))
|
|
printLabels(printf, ptr.labels, "\t\t")
|
|
} else {
|
|
printf(obj, "\t%s", r.qpos.TypeString(ptr.typ))
|
|
}
|
|
}
|
|
} else {
|
|
printf(r.qpos, "this %s cannot contain any dynamic types.", r.typ)
|
|
}
|
|
} else {
|
|
// Show labels for other expressions.
|
|
if ptr := r.ptrs[0]; len(ptr.labels) > 0 {
|
|
printf(r.qpos, "value may point to these labels:")
|
|
printLabels(printf, ptr.labels, "\t")
|
|
} else {
|
|
printf(r.qpos, "value cannot point to anything.")
|
|
}
|
|
}
|
|
}
|
|
|
|
func (r *describeValueResult) toSerial(res *serial.Result, fset *token.FileSet) {
|
|
var value, objpos, ptaerr string
|
|
if r.constVal != nil {
|
|
value = r.constVal.String()
|
|
}
|
|
if r.obj != nil {
|
|
objpos = fset.Position(r.obj.Pos()).String()
|
|
}
|
|
if r.ptaErr != nil {
|
|
ptaerr = r.ptaErr.Error()
|
|
}
|
|
|
|
var pts []*serial.DescribePointer
|
|
for _, ptr := range r.ptrs {
|
|
var namePos string
|
|
if nt, ok := deref(ptr.typ).(*types.Named); ok {
|
|
namePos = fset.Position(nt.Obj().Pos()).String()
|
|
}
|
|
var labels []serial.DescribePTALabel
|
|
for _, l := range ptr.labels {
|
|
labels = append(labels, serial.DescribePTALabel{
|
|
Pos: fset.Position(l.Pos()).String(),
|
|
Desc: l.String(),
|
|
})
|
|
}
|
|
pts = append(pts, &serial.DescribePointer{
|
|
Type: r.qpos.TypeString(ptr.typ),
|
|
NamePos: namePos,
|
|
Labels: labels,
|
|
})
|
|
}
|
|
|
|
res.Describe = &serial.Describe{
|
|
Desc: importer.NodeDescription(r.expr),
|
|
Pos: fset.Position(r.expr.Pos()).String(),
|
|
Detail: "value",
|
|
Value: &serial.DescribeValue{
|
|
Type: r.qpos.TypeString(r.typ),
|
|
Value: value,
|
|
ObjPos: objpos,
|
|
PTAErr: ptaerr,
|
|
PTS: pts,
|
|
},
|
|
}
|
|
}
|
|
|
|
type byTypeString []pointerResult
|
|
|
|
func (a byTypeString) Len() int { return len(a) }
|
|
func (a byTypeString) Less(i, j int) bool { return a[i].typ.String() < a[j].typ.String() }
|
|
func (a byTypeString) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
|
|
|
|
type byPosAndString []*pointer.Label
|
|
|
|
func (a byPosAndString) Len() int { return len(a) }
|
|
func (a byPosAndString) Less(i, j int) bool {
|
|
cmp := a[i].Pos() - a[j].Pos()
|
|
return cmp < 0 || (cmp == 0 && a[i].String() < a[j].String())
|
|
}
|
|
func (a byPosAndString) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
|
|
|
|
func printLabels(printf printfFunc, labels []*pointer.Label, prefix string) {
|
|
// TODO(adonovan): due to context-sensitivity, many of these
|
|
// labels may differ only by context, which isn't apparent.
|
|
for _, label := range labels {
|
|
printf(label, "%s%s", prefix, label)
|
|
}
|
|
}
|
|
|
|
// ---- TYPE ------------------------------------------------------------
|
|
|
|
func describeType(o *Oracle, qpos *QueryPos, path []ast.Node) (*describeTypeResult, error) {
|
|
var description string
|
|
var t types.Type
|
|
switch n := path[0].(type) {
|
|
case *ast.Ident:
|
|
t = qpos.info.TypeOf(n)
|
|
switch t := t.(type) {
|
|
case *types.Basic:
|
|
description = "reference to built-in "
|
|
|
|
case *types.Named:
|
|
isDef := t.Obj().Pos() == n.Pos() // see caveats at isDef above
|
|
if isDef {
|
|
description = "definition of "
|
|
} else {
|
|
description = "reference to "
|
|
}
|
|
}
|
|
|
|
case ast.Expr:
|
|
t = qpos.info.TypeOf(n)
|
|
|
|
default:
|
|
// Unreachable?
|
|
return nil, fmt.Errorf("unexpected AST for type: %T", n)
|
|
}
|
|
|
|
description = description + "type " + qpos.TypeString(t)
|
|
|
|
// Show sizes for structs and named types (it's fairly obvious for others).
|
|
switch t.(type) {
|
|
case *types.Named, *types.Struct:
|
|
// TODO(adonovan): use o.imp.Config().TypeChecker.Sizes when
|
|
// we add the Config() method (needs some thought).
|
|
szs := types.StdSizes{8, 8}
|
|
description = fmt.Sprintf("%s (size %d, align %d)", description,
|
|
szs.Sizeof(t), szs.Alignof(t))
|
|
}
|
|
|
|
return &describeTypeResult{
|
|
qpos: qpos,
|
|
node: path[0],
|
|
description: description,
|
|
typ: t,
|
|
methods: accessibleMethods(t, qpos.info.Pkg),
|
|
}, nil
|
|
}
|
|
|
|
type describeTypeResult struct {
|
|
qpos *QueryPos
|
|
node ast.Node
|
|
description string
|
|
typ types.Type
|
|
methods []*types.Selection
|
|
}
|
|
|
|
func (r *describeTypeResult) display(printf printfFunc) {
|
|
printf(r.node, "%s", r.description)
|
|
|
|
// Show the underlying type for a reference to a named type.
|
|
if nt, ok := r.typ.(*types.Named); ok && r.node.Pos() != nt.Obj().Pos() {
|
|
printf(nt.Obj(), "defined as %s", r.qpos.TypeString(nt.Underlying()))
|
|
}
|
|
|
|
// Print the method set, if the type kind is capable of bearing methods.
|
|
switch r.typ.(type) {
|
|
case *types.Interface, *types.Struct, *types.Named:
|
|
if len(r.methods) > 0 {
|
|
printf(r.node, "Method set:")
|
|
for _, meth := range r.methods {
|
|
printf(meth.Obj(), "\t%s", r.qpos.SelectionString(meth))
|
|
}
|
|
} else {
|
|
printf(r.node, "No methods.")
|
|
}
|
|
}
|
|
}
|
|
|
|
func (r *describeTypeResult) toSerial(res *serial.Result, fset *token.FileSet) {
|
|
var namePos, nameDef string
|
|
if nt, ok := r.typ.(*types.Named); ok {
|
|
namePos = fset.Position(nt.Obj().Pos()).String()
|
|
nameDef = nt.Underlying().String()
|
|
}
|
|
res.Describe = &serial.Describe{
|
|
Desc: r.description,
|
|
Pos: fset.Position(r.node.Pos()).String(),
|
|
Detail: "type",
|
|
Type: &serial.DescribeType{
|
|
Type: r.qpos.TypeString(r.typ),
|
|
NamePos: namePos,
|
|
NameDef: nameDef,
|
|
Methods: methodsToSerial(r.qpos.info.Pkg, r.methods, fset),
|
|
},
|
|
}
|
|
}
|
|
|
|
// ---- PACKAGE ------------------------------------------------------------
|
|
|
|
func describePackage(o *Oracle, qpos *QueryPos, path []ast.Node) (*describePackageResult, error) {
|
|
var description string
|
|
var pkg *types.Package
|
|
switch n := path[0].(type) {
|
|
case *ast.ImportSpec:
|
|
// Most ImportSpecs have no .Name Ident so we can't
|
|
// use ObjectOf.
|
|
// We could use the types.Info.Implicits mechanism,
|
|
// but it's easier just to look it up by name.
|
|
description = "import of package " + n.Path.Value
|
|
importPath, _ := strconv.Unquote(n.Path.Value)
|
|
pkg = o.prog.ImportedPackage(importPath).Object
|
|
|
|
case *ast.Ident:
|
|
if _, isDef := path[1].(*ast.File); isDef {
|
|
// e.g. package id
|
|
pkg = qpos.info.Pkg
|
|
description = fmt.Sprintf("definition of package %q", pkg.Path())
|
|
} else {
|
|
// e.g. import id
|
|
// or id.F()
|
|
pkg = qpos.info.ObjectOf(n).Pkg()
|
|
description = fmt.Sprintf("reference to package %q", pkg.Path())
|
|
}
|
|
|
|
default:
|
|
// Unreachable?
|
|
return nil, fmt.Errorf("unexpected AST for package: %T", n)
|
|
}
|
|
|
|
var members []*describeMember
|
|
// NB: "unsafe" has no types.Package
|
|
if pkg != nil {
|
|
// Enumerate the accessible package members
|
|
// in lexicographic order.
|
|
for _, name := range pkg.Scope().Names() {
|
|
if pkg == qpos.info.Pkg || ast.IsExported(name) {
|
|
mem := pkg.Scope().Lookup(name)
|
|
var methods []*types.Selection
|
|
if mem, ok := mem.(*types.TypeName); ok {
|
|
methods = accessibleMethods(mem.Type(), qpos.info.Pkg)
|
|
}
|
|
members = append(members, &describeMember{
|
|
mem,
|
|
methods,
|
|
})
|
|
|
|
}
|
|
}
|
|
}
|
|
|
|
return &describePackageResult{o.prog.Fset, path[0], description, pkg, members}, nil
|
|
}
|
|
|
|
type describePackageResult struct {
|
|
fset *token.FileSet
|
|
node ast.Node
|
|
description string
|
|
pkg *types.Package
|
|
members []*describeMember // in lexicographic name order
|
|
}
|
|
|
|
type describeMember struct {
|
|
obj types.Object
|
|
methods []*types.Selection // in types.MethodSet order
|
|
}
|
|
|
|
func (r *describePackageResult) display(printf printfFunc) {
|
|
printf(r.node, "%s", r.description)
|
|
|
|
// Compute max width of name "column".
|
|
maxname := 0
|
|
for _, mem := range r.members {
|
|
if l := len(mem.obj.Name()); l > maxname {
|
|
maxname = l
|
|
}
|
|
}
|
|
|
|
for _, mem := range r.members {
|
|
printf(mem.obj, "\t%s", formatMember(mem.obj, maxname))
|
|
for _, meth := range mem.methods {
|
|
printf(meth.Obj(), "\t\t%s", meth)
|
|
}
|
|
}
|
|
}
|
|
|
|
func formatMember(obj types.Object, maxname int) string {
|
|
var buf bytes.Buffer
|
|
fmt.Fprintf(&buf, "%-5s %-*s", tokenOf(obj), maxname, obj.Name())
|
|
switch obj := obj.(type) {
|
|
case *types.Const:
|
|
fmt.Fprintf(&buf, " %s = %s", types.TypeString(obj.Pkg(), obj.Type()), obj.Val().String())
|
|
|
|
case *types.Func:
|
|
fmt.Fprintf(&buf, " %s", types.TypeString(obj.Pkg(), obj.Type()))
|
|
|
|
case *types.TypeName:
|
|
// Abbreviate long aggregate type names.
|
|
var abbrev string
|
|
switch t := obj.Type().Underlying().(type) {
|
|
case *types.Interface:
|
|
if t.NumMethods() > 1 {
|
|
abbrev = "interface{...}"
|
|
}
|
|
case *types.Struct:
|
|
if t.NumFields() > 1 {
|
|
abbrev = "struct{...}"
|
|
}
|
|
}
|
|
if abbrev == "" {
|
|
fmt.Fprintf(&buf, " %s", types.TypeString(obj.Pkg(), obj.Type().Underlying()))
|
|
} else {
|
|
fmt.Fprintf(&buf, " %s", abbrev)
|
|
}
|
|
|
|
case *types.Var:
|
|
fmt.Fprintf(&buf, " %s", types.TypeString(obj.Pkg(), obj.Type()))
|
|
}
|
|
return buf.String()
|
|
}
|
|
|
|
func (r *describePackageResult) toSerial(res *serial.Result, fset *token.FileSet) {
|
|
var members []*serial.DescribeMember
|
|
for _, mem := range r.members {
|
|
typ := mem.obj.Type()
|
|
var val string
|
|
switch mem := mem.obj.(type) {
|
|
case *types.Const:
|
|
val = mem.Val().String()
|
|
case *types.TypeName:
|
|
typ = typ.Underlying()
|
|
}
|
|
members = append(members, &serial.DescribeMember{
|
|
Name: mem.obj.Name(),
|
|
Type: typ.String(),
|
|
Value: val,
|
|
Pos: fset.Position(mem.obj.Pos()).String(),
|
|
Kind: tokenOf(mem.obj),
|
|
Methods: methodsToSerial(r.pkg, mem.methods, fset),
|
|
})
|
|
}
|
|
res.Describe = &serial.Describe{
|
|
Desc: r.description,
|
|
Pos: fset.Position(r.node.Pos()).String(),
|
|
Detail: "package",
|
|
Package: &serial.DescribePackage{
|
|
Path: r.pkg.Path(),
|
|
Members: members,
|
|
},
|
|
}
|
|
}
|
|
|
|
func tokenOf(o types.Object) string {
|
|
switch o.(type) {
|
|
case *types.Func:
|
|
return "func"
|
|
case *types.Var:
|
|
return "var"
|
|
case *types.TypeName:
|
|
return "type"
|
|
case *types.Const:
|
|
return "const"
|
|
case *types.PkgName:
|
|
return "package"
|
|
}
|
|
panic(o)
|
|
}
|
|
|
|
// ---- STATEMENT ------------------------------------------------------------
|
|
|
|
func describeStmt(o *Oracle, qpos *QueryPos, path []ast.Node) (*describeStmtResult, error) {
|
|
var description string
|
|
switch n := path[0].(type) {
|
|
case *ast.Ident:
|
|
if qpos.info.ObjectOf(n).Pos() == n.Pos() {
|
|
description = "labelled statement"
|
|
} else {
|
|
description = "reference to labelled statement"
|
|
}
|
|
|
|
default:
|
|
// Nothing much to say about statements.
|
|
description = importer.NodeDescription(n)
|
|
}
|
|
return &describeStmtResult{o.prog.Fset, path[0], description}, nil
|
|
}
|
|
|
|
type describeStmtResult struct {
|
|
fset *token.FileSet
|
|
node ast.Node
|
|
description string
|
|
}
|
|
|
|
func (r *describeStmtResult) display(printf printfFunc) {
|
|
printf(r.node, "%s", r.description)
|
|
}
|
|
|
|
func (r *describeStmtResult) toSerial(res *serial.Result, fset *token.FileSet) {
|
|
res.Describe = &serial.Describe{
|
|
Desc: r.description,
|
|
Pos: fset.Position(r.node.Pos()).String(),
|
|
Detail: "unknown",
|
|
}
|
|
}
|
|
|
|
// ------------------- Utilities -------------------
|
|
|
|
// pathToString returns a string containing the concrete types of the
|
|
// nodes in path.
|
|
func pathToString2(path []ast.Node) string {
|
|
var buf bytes.Buffer
|
|
fmt.Fprint(&buf, "[")
|
|
for i, n := range path {
|
|
if i > 0 {
|
|
fmt.Fprint(&buf, " ")
|
|
}
|
|
fmt.Fprint(&buf, strings.TrimPrefix(fmt.Sprintf("%T", n), "*ast."))
|
|
}
|
|
fmt.Fprint(&buf, "]")
|
|
return buf.String()
|
|
}
|
|
|
|
func accessibleMethods(t types.Type, from *types.Package) []*types.Selection {
|
|
var methods []*types.Selection
|
|
for _, meth := range ssa.IntuitiveMethodSet(t) {
|
|
if isAccessibleFrom(meth.Obj(), from) {
|
|
methods = append(methods, meth)
|
|
}
|
|
}
|
|
return methods
|
|
}
|
|
|
|
func isAccessibleFrom(obj types.Object, pkg *types.Package) bool {
|
|
return ast.IsExported(obj.Name()) || obj.Pkg() == pkg
|
|
}
|
|
|
|
func methodsToSerial(this *types.Package, methods []*types.Selection, fset *token.FileSet) []serial.DescribeMethod {
|
|
var jmethods []serial.DescribeMethod
|
|
for _, meth := range methods {
|
|
jmethods = append(jmethods, serial.DescribeMethod{
|
|
Name: types.SelectionString(this, meth),
|
|
Pos: fset.Position(meth.Obj().Pos()).String(),
|
|
})
|
|
}
|
|
return jmethods
|
|
}
|