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3b5de067a1
Core: reflect.TypeOf reflect.ValueOf reflect.Zero reflect.Value.Interface Maps: (reflect.Value).MapIndex (reflect.Value).MapKeys (reflect.Value).SetMapIndex (*reflect.rtype).Elem (*reflect.rtype).Key + tests: pointer/testdata/mapreflect.go. oracle/testdata/src/main/reflection.go. Interface objects (T, V...) have been renamed "tagged objects". Abstraction: we model reflect.Value similar to interface{}---as a pointer that points only to tagged objects---but a reflect.Value may also point to an "indirect tagged object", one in which the payload V is of type *T not T. These are required because reflect.Values can hold lvalues, e.g. when derived via Field() or Elem(), though we won't use them till we get to structs and pointers. Solving: each reflection intrinsic defines a new constraint and resolution rule. Because of the nature of reflection, generalizing across types, the resolution rules dynamically create additional complex constraints during solving, where previously only simple (copy) constraints were created. This requires some solver changes: The work done before the main solver loop (to attach new constraints to the graph) is now done before each iteration, in processNewConstraints. Its loop over constraints is broken into two passes: the first handles base (addr-of) constraints, the second handles simple and complex constraints. constraint.init() has been inlined. The only behaviour that varies across constraints is ptr() Sadly this will pessimize presolver optimisations, when we get there; such is the price of reflection. Objects: reflection intrinsics create objects (i.e. cause memory allocations) with no SSA operation. We will represent them as the cgnode of the instrinsic (e.g. reflect.New), so we extend Labels and node.data to represent objects as a product (not sum) of ssa.Value and cgnode and pull this out into its own type, struct object. This simplifies a number of invariants and saves space. The ntObject flag is now represented by obj!=nil; the other flags are moved into object. cgnodes are now always recorded in objects/Labels for which it is appropriate (all but those for globals, constants and the shared contours for functions). Also: - Prepopulate the flattenMemo cache to consider reflect.Value a fake pointer, not a struct. - Improve accessors and documentation on type Label. - @conctypes assertions renamed @types (since dyn. types needn't be concrete). - add oracle 'describe' test on an interface (missing, an oversight). R=crawshaw CC=golang-dev https://golang.org/cl/13418048
314 lines
9.3 KiB
Go
314 lines
9.3 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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// This file defines the main datatypes and Analyze function of the pointer analysis.
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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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"os"
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"code.google.com/p/go.tools/go/types"
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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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// object.flags bitmask values.
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const (
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otTagged = 1 << iota // type-tagged object
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otIndirect // type-tagged object with indirect payload
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otFunction // function object
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)
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// An object represents a contiguous block of memory to which some
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// (generalized) pointer may point.
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//
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// (Note: most variables called 'obj' are not *objects but nodeids
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// such that a.nodes[obj].obj != nil.)
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//
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type object struct {
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// flags is a bitset of the node type (ot*) flags defined above.
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flags uint32
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// Number of following nodes belonging to the same "object"
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// allocation. Zero for all other nodes.
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size uint32
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// The SSA operation that caused this object to be allocated.
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// May be nil for (e.g.) intrinsic allocations.
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val ssa.Value
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// The call-graph node (=context) in which this object was allocated.
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// May be nil for global objects: Global, Const, some Functions.
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cgn *cgnode
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// If this is an rtype instance object, or a *rtype-tagged
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// object, this is its type.
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rtype types.Type
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}
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// nodeid denotes a node.
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// It is an index within analysis.nodes.
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// We use small integers, not *node pointers, for many reasons:
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// - they are smaller on 64-bit systems.
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// - sets of them can be represented compactly in bitvectors or BDDs.
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// - order matters; a field offset can be computed by simple addition.
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type nodeid uint32
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// A node is an equivalence class of memory locations.
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// Nodes may be pointers, pointed-to locations, neither, or both.
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//
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// Nodes that are pointed-to locations ("labels") have an enclosing
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// object (see analysis.enclosingObject).
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//
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type node struct {
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// If non-nil, this node is the start of an object
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// (addressable memory location).
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// The following obj.size words implicitly belong to the object;
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// they locate their object by scanning back.
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obj *object
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// The type of the field denoted by this node. Non-aggregate,
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// unless this is an tagged.T node (i.e. the thing
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// pointed to by an interface) in which case typ is that type.
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typ types.Type
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// subelement indicates which directly embedded subelement of
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// an object of aggregate type (struct, tuple, array) this is.
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subelement *fieldInfo // e.g. ".a.b[*].c"
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// Points-to sets.
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pts nodeset // points-to set of this node
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prevPts nodeset // pts(n) in previous iteration (for difference propagation)
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// Graph edges
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copyTo nodeset // simple copy constraint edges
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// Complex constraints attached to this node (x).
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// - *loadConstraint y=*x
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// - *offsetAddrConstraint y=&x.f or y=&x[0]
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// - *storeConstraint *x=z
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// - *typeAssertConstraint y=x.(T)
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// - *invokeConstraint y=x.f(params...)
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complex constraintset
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}
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type constraint interface {
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String() string
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// For a complex constraint, returns the nodeid of the pointer
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// to which it is attached.
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ptr() nodeid
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// solve is called for complex constraints when the pts for
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// the node to which they are attached has changed.
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solve(a *analysis, n *node, delta nodeset)
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}
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// dst = &src
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// pts(dst) ⊇ {src}
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// A base constraint used to initialize the solver's pt sets
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type addrConstraint struct {
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dst nodeid // (ptr)
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src nodeid
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}
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// dst = src
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// A simple constraint represented directly as a copyTo graph edge.
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type copyConstraint struct {
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dst nodeid
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src nodeid // (ptr)
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}
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// dst = src[offset]
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// A complex constraint attached to src (the pointer)
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type loadConstraint struct {
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offset uint32
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dst nodeid
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src nodeid // (ptr)
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}
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// dst[offset] = src
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// A complex constraint attached to dst (the pointer)
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type storeConstraint struct {
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offset uint32
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dst nodeid // (ptr)
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src nodeid
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}
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// dst = &src.f or dst = &src[0]
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// A complex constraint attached to dst (the pointer)
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type offsetAddrConstraint struct {
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offset uint32
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dst nodeid
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src nodeid // (ptr)
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}
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// dst = src.(typ)
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// A complex constraint attached to src (the interface).
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type typeAssertConstraint struct {
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typ types.Type
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dst nodeid
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src nodeid // (ptr)
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}
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// src.method(params...)
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// A complex constraint attached to iface.
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type invokeConstraint struct {
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method *types.Func // the abstract method
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iface nodeid // (ptr) the interface
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params nodeid // the first parameter in the params/results block
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}
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// An analysis instance holds the state of a single pointer analysis problem.
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type analysis struct {
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config *Config // the client's control/observer interface
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prog *ssa.Program // the program being analyzed
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log io.Writer // log stream; nil to disable
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panicNode nodeid // sink for panic, source for recover
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nodes []*node // indexed by nodeid
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flattenMemo map[types.Type][]*fieldInfo // memoization of flatten()
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constraints []constraint // set of constraints
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callsites []*callsite // all callsites
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genq []*cgnode // queue of functions to generate constraints for
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intrinsics map[*ssa.Function]intrinsic // non-nil values are summaries for intrinsic fns
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funcObj map[*ssa.Function]nodeid // default function object for each func
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probes map[*ssa.CallCommon]nodeid // maps call to print() to argument variable
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valNode map[ssa.Value]nodeid // node for each ssa.Value
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work worklist // solver's worklist
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// Reflection:
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hasher typemap.Hasher // cache of type hashes
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reflectValueObj types.Object // type symbol for reflect.Value (if present)
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reflectRtypeObj types.Object // *types.TypeName for reflect.rtype (if present)
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reflectRtype *types.Pointer // *reflect.rtype
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rtypes typemap.M // nodeid of canonical *rtype-tagged object for type T
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reflectZeros typemap.M // nodeid of canonical T-tagged object for zero value
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}
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// enclosingObj returns the object (addressible memory object) that encloses node id.
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// Panic ensues if that node does not belong to any object.
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func (a *analysis) enclosingObj(id nodeid) *object {
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// Find previous node with obj != nil.
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for i := id; i >= 0; i-- {
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n := a.nodes[i]
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if obj := n.obj; obj != nil {
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if i+nodeid(obj.size) <= id {
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break // out of bounds
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}
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return obj
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}
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}
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panic("node has no enclosing object")
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}
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// labelFor returns the Label for node id.
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// Panic ensues if that node is not addressable.
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func (a *analysis) labelFor(id nodeid) *Label {
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return &Label{
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obj: a.enclosingObj(id),
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subelement: a.nodes[id].subelement,
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}
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}
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func (a *analysis) warnf(pos token.Pos, format string, args ...interface{}) {
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if Warn := a.config.Warn; Warn != nil {
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Warn(pos, format, args...)
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} else {
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fmt.Fprintf(os.Stderr, "%s: warning: ", a.prog.Fset.Position(pos))
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fmt.Fprintf(os.Stderr, format, args...)
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fmt.Fprintln(os.Stderr)
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}
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}
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// Analyze runs the pointer analysis with the scope and options
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// specified by config, and returns the (synthetic) root of the callgraph.
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//
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func Analyze(config *Config) CallGraphNode {
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a := &analysis{
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config: config,
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log: config.Log,
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prog: config.prog(),
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valNode: make(map[ssa.Value]nodeid),
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flattenMemo: make(map[types.Type][]*fieldInfo),
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hasher: typemap.MakeHasher(),
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intrinsics: make(map[*ssa.Function]intrinsic),
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funcObj: make(map[*ssa.Function]nodeid),
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probes: make(map[*ssa.CallCommon]nodeid),
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work: makeMapWorklist(),
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}
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if reflect := a.prog.ImportedPackage("reflect"); reflect != nil {
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a.reflectValueObj = reflect.Object.Scope().Lookup("Value")
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a.reflectRtypeObj = reflect.Object.Scope().Lookup("rtype")
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a.reflectRtype = types.NewPointer(a.reflectRtypeObj.Type())
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// Override flattening of reflect.Value, treating it like a basic type.
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tReflectValue := a.reflectValueObj.Type()
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a.flattenMemo[tReflectValue] = []*fieldInfo{{typ: tReflectValue}}
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a.rtypes.SetHasher(a.hasher)
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a.reflectZeros.SetHasher(a.hasher)
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}
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if false {
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a.log = os.Stderr // for debugging crashes; extremely verbose
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}
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if a.log != nil {
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fmt.Fprintln(a.log, "======== NEW ANALYSIS ========")
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}
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root := a.generate()
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// ---------- Presolver ----------
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// TODO(adonovan): opt: presolver optimisations.
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// ---------- Solver ----------
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a.solve()
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if a.log != nil {
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// Dump solution.
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for i, n := range a.nodes {
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if n.pts != nil {
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fmt.Fprintf(a.log, "pts(n%d) = %s : %s\n", i, n.pts, n.typ)
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}
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}
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}
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// Notify the client of the callsites if they're interested.
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if CallSite := a.config.CallSite; CallSite != nil {
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for _, site := range a.callsites {
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CallSite(site)
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}
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}
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Call := a.config.Call
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for _, site := range a.callsites {
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for nid := range a.nodes[site.targets].pts {
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cgn := a.nodes[nid].obj.cgn
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// Notify the client of the call graph, if
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// they're interested.
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if Call != nil {
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Call(site, cgn)
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}
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// Warn about calls to non-intrinsic external functions.
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if fn := cgn.fn; fn.Blocks == nil && a.findIntrinsic(fn) == nil {
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a.warnf(site.Pos(), "unsound call to unknown intrinsic: %s", fn)
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a.warnf(fn.Pos(), " (declared here)")
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}
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}
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}
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return root
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}
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