mirror of
https://github.com/golang/go
synced 2024-10-01 13:18:33 -06:00
94c387c610
The implementation follows the basic pattern of an indirect
function call (genDynamicCall).
We use the same trick as SetFinalizer so that direct calls to
(r.V).Call, which are overwhelmingly the norm, are inlined.
Bug fix (and simplification): calling untag() to unbox a
reflect.Value is wrong for reflect.Values containing interfaces
(rare). Now, we call untag for concrete types and typeFilter
for interface types, and we can use this pattern in all cases.
It corresponds to the ssa.TypeAssert operator, so we call
it typeAssert. Added tests to cover this.
We also specialize reflect.{In,Out} when the operand is an int
literal.
+ Tests.
Also:
- make taggedValue() panic, not return nil, eliminating many checks.
We call isTaggedValue for the one place that cares.
- pointer_test: recover from panics in Analyze() and dump the log.
R=crawshaw
CC=golang-dev
https://golang.org/cl/14426050
229 lines
6.1 KiB
Go
229 lines
6.1 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 pointer
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import (
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"fmt"
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"go/token"
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"io"
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"code.google.com/p/go.tools/call"
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"code.google.com/p/go.tools/go/types/typemap"
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"code.google.com/p/go.tools/ssa"
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)
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// A Config formulates a pointer analysis problem for Analyze().
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type Config struct {
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// Mains contains the set of 'main' packages to analyze
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// Clients must provide the analysis with at least one
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// package defining a main() function.
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Mains []*ssa.Package
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// Reflection determines whether to handle reflection
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// operators soundly, which is currently rather slow since it
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// causes constraint to be generated during solving
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// proportional to the number of constraint variables, which
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// has not yet been reduced by presolver optimisation.
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Reflection bool
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// BuildCallGraph determines whether to construct a callgraph.
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// If enabled, the graph will be available in Result.CallGraph.
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BuildCallGraph bool
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// Print is invoked during the analysis for each discovered
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// call to the built-in print(x), providing a convenient way
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// to identify arbitrary expressions of interest in the tests.
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//
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// Pointer p may be saved until the analysis is complete, at
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// which point its methods provide access to the analysis
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// (The result of callings its methods within the Print
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// callback is undefined.) p is nil if x is non-pointerlike.
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//
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Print func(site *ssa.CallCommon, p Pointer)
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// The client populates Queries[v] for each ssa.Value v of
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// interest.
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//
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// The boolean (Indirect) indicates whether to compute the
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// points-to set for v (false) or *v (true): the latter is
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// typically wanted for Values corresponding to source-level
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// lvalues, e.g. an *ssa.Global.
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//
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// The pointer analysis will populate the corresponding
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// Results.Queries value when it creates the pointer variable
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// for v or *v. Upon completion the client can inspect that
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// map for the results.
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//
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// If a Value belongs to a function that the analysis treats
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// context-sensitively, the corresponding Results.Queries slice
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// may have multiple Pointers, one per distinct context. Use
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// PointsToCombined to merge them.
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//
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Queries map[ssa.Value]Indirect
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// If Log is non-nil, log messages are written to it.
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// Logging is extremely verbose.
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Log io.Writer
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}
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type Indirect bool // map[ssa.Value]Indirect is not a set
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func (c *Config) prog() *ssa.Program {
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for _, main := range c.Mains {
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return main.Prog
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}
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panic("empty scope")
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}
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type Warning struct {
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Pos token.Pos
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Message string
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}
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// A Result contains the results of a pointer analysis.
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//
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// See Config for how to request the various Result components.
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//
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type Result struct {
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CallGraph call.Graph // discovered call graph
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Queries map[ssa.Value][]Pointer // points-to sets for queried ssa.Values
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Warnings []Warning // warnings of unsoundness
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}
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// A Pointer is an equivalence class of pointerlike values.
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type Pointer interface {
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// PointsTo returns the points-to set of this pointer.
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PointsTo() PointsToSet
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// MayAlias reports whether the receiver pointer may alias
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// the argument pointer.
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MayAlias(Pointer) bool
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// Context returns the context of this pointer,
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// if it corresponds to a local variable.
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Context() call.GraphNode
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String() string
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}
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// A PointsToSet is a set of labels (locations or allocations).
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//
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type PointsToSet interface {
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// PointsTo returns the set of labels that this points-to set
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// contains.
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Labels() []*Label
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// Intersects reports whether this points-to set and the
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// argument points-to set contain common members.
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Intersects(PointsToSet) bool
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// If this PointsToSet came from a Pointer of interface kind
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// or a reflect.Value, DynamicTypes returns the set of dynamic
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// types that it may contain. (For an interface, they will
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// always be concrete types.)
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//
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// The result is a mapping whose keys are the dynamic types to
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// which it may point. For each pointer-like key type, the
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// corresponding map value is a set of pointer abstractions of
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// that dynamic type, represented as a []Pointer slice. Use
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// PointsToCombined to merge them.
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//
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// The result is empty unless CanHaveDynamicTypes(T).
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//
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DynamicTypes() *typemap.M
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}
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// Union returns the set containing all the elements of each set in sets.
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func Union(sets ...PointsToSet) PointsToSet {
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var union ptset
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for _, set := range sets {
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set := set.(ptset)
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union.a = set.a
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union.pts.addAll(set.pts)
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}
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return union
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}
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// PointsToCombined returns the combined points-to set of all the
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// specified pointers.
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func PointsToCombined(ptrs []Pointer) PointsToSet {
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var ptsets []PointsToSet
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for _, ptr := range ptrs {
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ptsets = append(ptsets, ptr.PointsTo())
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}
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return Union(ptsets...)
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}
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// ---- PointsToSet public interface
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type ptset struct {
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a *analysis // may be nil if pts is nil
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pts nodeset
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}
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func (s ptset) Labels() []*Label {
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var labels []*Label
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for l := range s.pts {
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labels = append(labels, s.a.labelFor(l))
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}
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return labels
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}
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func (s ptset) DynamicTypes() *typemap.M {
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var tmap typemap.M
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tmap.SetHasher(s.a.hasher)
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for ifaceObjId := range s.pts {
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if !s.a.isTaggedObject(ifaceObjId) {
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continue // !CanHaveDynamicTypes(tDyn)
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}
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tDyn, v, indirect := s.a.taggedValue(ifaceObjId)
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if indirect {
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panic("indirect tagged object") // implement later
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}
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prev, _ := tmap.At(tDyn).([]Pointer)
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tmap.Set(tDyn, append(prev, ptr{s.a, nil, v}))
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}
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return &tmap
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}
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func (x ptset) Intersects(y_ PointsToSet) bool {
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y := y_.(ptset)
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for l := range x.pts {
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if _, ok := y.pts[l]; ok {
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return true
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}
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}
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return false
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}
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// ---- Pointer public interface
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// ptr adapts a node to the Pointer interface.
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type ptr struct {
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a *analysis
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cgn *cgnode
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n nodeid // non-zero
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}
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func (p ptr) String() string {
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return fmt.Sprintf("n%d", p.n)
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}
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func (p ptr) Context() call.GraphNode {
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return p.cgn
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}
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func (p ptr) PointsTo() PointsToSet {
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return ptset{p.a, p.a.nodes[p.n].pts}
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}
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func (p ptr) MayAlias(q Pointer) bool {
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return p.PointsTo().Intersects(q.PointsTo())
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}
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func (p ptr) DynamicTypes() *typemap.M {
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return p.PointsTo().DynamicTypes()
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}
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