wide/vendor/golang.org/x/tools/cmd/guru/pointsto.go

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// Copyright 2013 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.
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package main
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import (
"fmt"
"go/ast"
"go/token"
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"go/types"
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"sort"
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"golang.org/x/tools/cmd/guru/serial"
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"golang.org/x/tools/go/ast/astutil"
"golang.org/x/tools/go/loader"
"golang.org/x/tools/go/pointer"
"golang.org/x/tools/go/ssa"
"golang.org/x/tools/go/ssa/ssautil"
)
// pointsto runs the pointer analysis on the selected expression,
// and reports its points-to set (for a pointer-like expression)
// or its dynamic types (for an interface, reflect.Value, or
// reflect.Type expression) and their points-to sets.
//
// All printed sets are sorted to ensure determinism.
//
func pointsto(q *Query) error {
lconf := loader.Config{Build: q.Build}
if err := setPTAScope(&lconf, q.Scope); err != nil {
return err
}
// Load/parse/type-check the program.
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lprog, err := loadWithSoftErrors(&lconf)
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if err != nil {
return err
}
qpos, err := parseQueryPos(lprog, q.Pos, true) // needs exact pos
if err != nil {
return err
}
prog := ssautil.CreateProgram(lprog, ssa.GlobalDebug)
ptaConfig, err := setupPTA(prog, lprog, q.PTALog, q.Reflection)
if err != nil {
return err
}
path, action := findInterestingNode(qpos.info, qpos.path)
if action != actionExpr {
return fmt.Errorf("pointer analysis wants an expression; got %s",
astutil.NodeDescription(qpos.path[0]))
}
var expr ast.Expr
var obj types.Object
switch n := path[0].(type) {
case *ast.ValueSpec:
// ambiguous ValueSpec containing multiple names
return fmt.Errorf("multiple value specification")
case *ast.Ident:
obj = qpos.info.ObjectOf(n)
expr = n
case ast.Expr:
expr = n
default:
// TODO(adonovan): is this reachable?
return fmt.Errorf("unexpected AST for expr: %T", n)
}
// Reject non-pointerlike types (includes all constants---except nil).
// TODO(adonovan): reject nil too.
typ := qpos.info.TypeOf(expr)
if !pointer.CanPoint(typ) {
return fmt.Errorf("pointer analysis wants an expression of reference type; got %s", typ)
}
// Determine the ssa.Value for the expression.
var value ssa.Value
var isAddr bool
if obj != nil {
// def/ref of func/var object
value, isAddr, err = ssaValueForIdent(prog, qpos.info, obj, path)
} else {
value, isAddr, err = ssaValueForExpr(prog, qpos.info, path)
}
if err != nil {
return err // e.g. trivially dead code
}
// Defer SSA construction till after errors are reported.
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prog.Build()
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// Run the pointer analysis.
ptrs, err := runPTA(ptaConfig, value, isAddr)
if err != nil {
return err // e.g. analytically unreachable
}
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q.Output(lprog.Fset, &pointstoResult{
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qpos: qpos,
typ: typ,
ptrs: ptrs,
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})
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return nil
}
// ssaValueForIdent returns the ssa.Value for the ast.Ident whose path
// to the root of the AST is path. isAddr reports whether the
// ssa.Value is the address denoted by the ast.Ident, not its value.
//
func ssaValueForIdent(prog *ssa.Program, qinfo *loader.PackageInfo, obj types.Object, path []ast.Node) (value ssa.Value, isAddr bool, err error) {
switch obj := obj.(type) {
case *types.Var:
pkg := prog.Package(qinfo.Pkg)
pkg.Build()
if v, addr := prog.VarValue(obj, pkg, path); v != nil {
return v, addr, nil
}
return nil, false, fmt.Errorf("can't locate SSA Value for var %s", obj.Name())
case *types.Func:
fn := prog.FuncValue(obj)
if fn == nil {
return nil, false, fmt.Errorf("%s is an interface method", obj)
}
// TODO(adonovan): there's no point running PTA on a *Func ident.
// Eliminate this feature.
return fn, false, nil
}
panic(obj)
}
// ssaValueForExpr returns the ssa.Value of the non-ast.Ident
// expression whose path to the root of the AST is path.
//
func ssaValueForExpr(prog *ssa.Program, qinfo *loader.PackageInfo, path []ast.Node) (value ssa.Value, isAddr bool, err error) {
pkg := prog.Package(qinfo.Pkg)
pkg.SetDebugMode(true)
pkg.Build()
fn := ssa.EnclosingFunction(pkg, path)
if fn == nil {
return nil, false, fmt.Errorf("no SSA function built for this location (dead code?)")
}
if v, addr := fn.ValueForExpr(path[0].(ast.Expr)); v != nil {
return v, addr, nil
}
return nil, false, fmt.Errorf("can't locate SSA Value for expression in %s", fn)
}
// runPTA runs the pointer analysis of the selected SSA value or address.
func runPTA(conf *pointer.Config, v ssa.Value, isAddr bool) (ptrs []pointerResult, err error) {
T := v.Type()
if isAddr {
conf.AddIndirectQuery(v)
T = deref(T)
} else {
conf.AddQuery(v)
}
ptares := ptrAnalysis(conf)
var ptr pointer.Pointer
if isAddr {
ptr = ptares.IndirectQueries[v]
} else {
ptr = ptares.Queries[v]
}
if ptr == (pointer.Pointer{}) {
return nil, fmt.Errorf("pointer analysis did not find expression (dead code?)")
}
pts := ptr.PointsTo()
if pointer.CanHaveDynamicTypes(T) {
// Show concrete types for interface/reflect.Value expression.
if concs := pts.DynamicTypes(); concs.Len() > 0 {
concs.Iterate(func(conc types.Type, pta interface{}) {
labels := pta.(pointer.PointsToSet).Labels()
sort.Sort(byPosAndString(labels)) // to ensure determinism
ptrs = append(ptrs, pointerResult{conc, labels})
})
}
} else {
// Show labels for other expressions.
labels := pts.Labels()
sort.Sort(byPosAndString(labels)) // to ensure determinism
ptrs = append(ptrs, pointerResult{T, labels})
}
sort.Sort(byTypeString(ptrs)) // to ensure determinism
return ptrs, nil
}
type pointerResult struct {
typ types.Type // type of the pointer (always concrete)
labels []*pointer.Label // set of labels
}
type pointstoResult struct {
qpos *queryPos
typ types.Type // type of expression
ptrs []pointerResult // pointer info (typ is concrete => len==1)
}
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func (r *pointstoResult) PrintPlain(printf printfFunc) {
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if pointer.CanHaveDynamicTypes(r.typ) {
// Show concrete types for interface, reflect.Type or
// reflect.Value expression.
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, "this %s may point to these objects:",
r.qpos.typeString(r.typ))
printLabels(printf, ptr.labels, "\t")
} else {
printf(r.qpos, "this %s may not point to anything.",
r.qpos.typeString(r.typ))
}
}
}
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func (r *pointstoResult) JSON(fset *token.FileSet) []byte {
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var pts []serial.PointsTo
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.PointsToLabel
for _, l := range ptr.labels {
labels = append(labels, serial.PointsToLabel{
Pos: fset.Position(l.Pos()).String(),
Desc: l.String(),
})
}
pts = append(pts, serial.PointsTo{
Type: r.qpos.typeString(ptr.typ),
NamePos: namePos,
Labels: labels,
})
}
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return toJSON(pts)
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}
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)
}
}