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13 Commits

Author SHA1 Message Date
Alan Donovan
8bb20b8231 go.tools/pointer: more reflection.
Support for:
        (*reflect.rtype).Field
        (*reflect.rtype).FieldByName
        reflect.MakeSlice
        runtime.SetFinalizer

Details:
- analysis locates ssa.Functions for (reflect.Value).Call
  and runtime.SetFinalizer during startup to that it can
  special-case them during genCall.  ('Call' is forthcoming.)
- The callsite.targets mechanism is only used for dynamic
  calls now.  For static calls we call callEdge during constraint
  generation; this is a minor optimisation.
- Static calls to SetFinalizer are inlined so that the call
  appears to go direct to the finalizer.  (We'll use the same
  trick for (reflect.Value).Call.)
- runtime.FuncForPC: treat as a no-op.
- Fixed pointer_test to properly deal with expectations
  that are multi-sets.
- Inlined rtypeMethodByNameConstraint.addMethod.
- More tests.

R=crawshaw
CC=golang-dev
https://golang.org/cl/14682045
2013-10-17 09:26:44 -04:00
Alan Donovan
d7a9805478 go.tools/pointer: use assignable not identical type predicate in reflect.{Send,SetMapIndex,etc}
Various reflect operations permit assignability conversions,
i.e. their internals behave unlike y=x.(T) which unpacks only
those interface values in x that are identical to T.

We split typeAssertConstraint y=x.(T) into two constraints:
1) typeFilter, for when T is an interface type and no
   representation change occurs.
2) unpack, for when T is a concrete type and the payload of the
   tagged object is extracted.  This constraint has an 'exact'
   parameter indicating whether to use the predicate
   IsIdentical (for type assertions) or
   IsAssignable (for reflect operators).

+ Tests.

R=crawshaw
CC=golang-dev
https://golang.org/cl/14547043
2013-10-14 13:53:41 -04:00
Alan Donovan
ae060fe849 go.tools/pointer: make os.Args point to something.
Since the Go runtime treats it specially, so must the pointer analysis.

Details:
- Combine object.{val,typ} fields into 'data interface{}'.
  It may now hold a string, describing an instrinsically
  allocated object such as the command-line args.
- extend Label accordingly; add Label.ReflectType() accessor.

Also: document pointer analysis algorithm classification.

R=crawshaw
CC=golang-dev
https://golang.org/cl/14156043
2013-10-01 09:46:33 -04:00
Alan Donovan
06c4192423 go.tools/pointer: minor API simplifications.
Details:
- Warnings are reported as values in Result, not a callback in Config.
- remove TODO to eliminate Print callback.  It's better than the alternative.
- remove unused Config.root field.
- hang Result off analysis object (impl. detail)
- reword TODO.

R=crawshaw
CC=golang-dev
https://golang.org/cl/14128043
2013-09-30 12:39:54 -04:00
Alan Donovan
5b55a71008 go.tools/pointer: strength reduction during constraint generation.
Motivation: simple constraints---copy and addr---are more
amenable to pre-solver optimizations (forthcoming) than
complex constraints: load, store, and all others.

In code such as the following:

         t0 = new struct { x, y int }
         t1 = &t0.y
         t2 = *t1

there's no need for the full generality of a (complex)
load constraint for t2=*t1 since t1 can only point to t0.y.
All we need is a (simple) copy constraint t2 = (t0.y)
where (t0.y) is the object node label for that field.

For all "addressable" SSA instructions, we tabulate
whether their points-to set is necessarily a singleton.  For
some (e.g. Alloc, MakeSlice, etc) this is always true by
design.  For others (e.g. FieldAddr) it depends on their
operands.

We exploit this information when generating constraints:
all load-form and store-form constraints are reduced to copy
constraints if the pointer's PTS is a singleton.
Similarly all FieldAddr (y=&x.f) and IndexAddr (y=&x[0])
constraints are reduced to offset addition, for singleton
operands.

Here's the constraint mix when running on the oracle itself.
The total number of constraints is unchanged but the fraction
that are complex has gone down to 21% from 53%.

                before    after
--simple--
 addr		20682     46949
 copy        	61454     91211
--complex--
 offsetAddr  	41621     15325
 load        	18769     12925
 store       	30758     6908
 invoke      	758       760
 typeAssert  	1688      1689
total           175832    175869

Also:
- Add Pointer.Context() for local variables,
  since we now plumb cgnodes throughout. Nice.
- Refactor all load-form (load, receive, lookup) and
  store-form (Store, send, MapUpdate) constraints to use
  genLoad and genStore.
- Log counts of constraints by type.
- valNodes split into localval and globalval maps;
  localval is purged after each function.
- analogous maps localobj[v] and globalobj[v] hold sole label
  for pts(v), if singleton.
- fnObj map subsumed by globalobj.
- make{Function/Global/Constant} inlined into objectValue.
  Much cleaner.

R=crawshaw
CC=golang-dev
https://golang.org/cl/13979043
2013-09-27 11:33:01 -04:00
Alan Donovan
d7287a0289 go.tool.pointer: fix regression in pointer.cgraph.Root().
The previous CL made the assumption that Root is the first
node, which is false for programs that import "reflect".
Reverted to the previous way: an explicit root field.

Added regression test (callgraph2) via oracle.

R=crawshaw
TBR=crawshaw
CC=golang-dev
https://golang.org/cl/13967043
2013-09-26 09:31:39 -04:00
Alan Donovan
785cfaa938 go.tools/pointer: use new callgraph API.
Also: pointer.Analyze now returns a pointer.Result object,
containing the callgraph and the results of ssa.Value queries.

The oracle has been updated to use the new call and pointer APIs.

R=crawshaw, gri
CC=golang-dev
https://golang.org/cl/13915043
2013-09-25 17:17:42 -04:00
Alan Donovan
3371b79a96 go.tools/pointer: reflect, part 2: channels.
(reflect.Value).Send
        (reflect.Value).TrySend
        (reflect.Value).Recv
        (reflect.Value).TryRecv
        (reflect.Type).ChanOf
        (reflect.Type).In
        (reflect.Type).Out
        reflect.Indirect
        reflect.MakeChan

Also:
- specialize genInvoke when the receiver is a reflect.Type under the
  assumption that there's only one possible concrete type.  This
  makes all reflect.Type operations context-sensitive since the calls
  are no longer dynamic.
- Rename all variables to match the actual parameter names used in
  the reflect API.
- Add pointer.Config.Reflection flag
  (exposed in oracle as --reflect, default false) to enable reflection.
  It currently adds about 20% running time.  I'll make it true after
  the presolver is implemented.
- Simplified worklist datatype and solver main loop slightly
  (~10% speed improvement).
- Use addLabel() utility to add a label to a PTS.

(Working on my 3 yr old 2x2GHz+4GB Mac vs 8x4GHz+24GB workstation,
one really notices the cost of pointer analysis.
Note to self: time to implement presolver.)

R=crawshaw
CC=golang-dev
https://golang.org/cl/13242062
2013-09-23 16:13:01 -04:00
Alan Donovan
3b5de067a1 go.tools/pointer: reflection, part 1: maps, and some core features.
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
2013-09-16 09:49:10 -04:00
Alan Donovan
3f2f9a7e70 go.tools/importer: generalize command-line syntax.
Motivation: pointer analysis tools (like the oracle) want the
user to specify a set of initial packages, like 'go test'.
This change enables the user to specify a set of packages on
the command line using importer.LoadInitialPackages(args).

Each argument is interpreted as either:
- a comma-separated list of *.go source files together
  comprising one non-importable ad-hoc package.
  e.g. "src/pkg/net/http/triv.go" gives us [main].
- an import path, denoting both the imported package
  and its non-importable external test package, if any.
  e.g. "fmt" gives us [fmt, fmt_test].

Current type-checker limitations mean that only the first
import path may contribute tests: multiple packages augmented
by *_test.go files could create import cycles, which 'go test'
avoids by building a separate executable for each one.
That approach is less attractive for static analysis.

Details:  (many files touched, but importer.go is the crux)

importer:
- PackageInfo.Importable boolean indicates whether
  package is importable.
- un-expose Importer.Packages; expose AllPackages() instead.
- CreatePackageFromArgs has become LoadInitialPackages.
- imports() moved to util.go, renamed importsOf().
- InitialPackagesUsage usage message exported to clients.
- the package name for ad-hoc packages now comes from the
  'package' decl, not "main".

ssa.Program:
- added CreatePackages() method
- PackagesByPath un-exposed, renamed 'imported'.
- expose AllPackages and ImportedPackage accessors.

oracle:
- describe: explain and workaround a go/types bug.

Misc:
- Removed various unnecessary error.Error() calls in Printf args.

R=crawshaw
CC=golang-dev
https://golang.org/cl/13579043
2013-09-06 18:13:57 -04:00
Alan Donovan
d2cdbefbfc go.tools/oracle: add option to output results in JSON syntax.
See json.go for interface specification.

Example usage:
% oracle -format=json -mode=callgraph code.google.com/p/go.tools/cmd/oracle

+ Tests, based on (small) golden files.

Overview:
  Each <query>Result structure has been "lowered" so that all
  but the most trivial logic in each display() function has
  been moved to the main query.

  Each one now has a toJSON method that populates a json.Result
  struct.  Though the <query>Result structs are similar to the
  correponding JSON protocol, they're not close enough to be
  used directly; for example, the former contain richer
  semantic entities (token.Pos, ast.Expr, ssa.Value,
  pointer.Pointer, etc) whereas JSON contains only their
  printed forms using Go basic types.

  The choices of what levels of abstractions the two sets of
  structs should have is somewhat arbitrary.  We may want
  richer information in the JSON output in future.

Details:
- oracle.Main has been split into oracle.Query() and the
  printing of the oracle.Result.
- the display() method no longer needs an *oracle param, only
  a print function.
- callees: sort the result for determinism.
- callees: compute the union across all contexts.
- callers: sort the results for determinism.
- describe(package): fixed a bug in the predicate for method
  accessibility: an unexported method defined in pkg A may
  belong to a type defined in package B (via
  embedding/promotion) and may thus be accessible to A.  New
  accessibleMethods() utility fixes this.
- describe(type): filter methods by accessibility.
- added tests of 'callgraph'.
- pointer: eliminated the 'caller CallGraphNode' parameter from
  pointer.Context.Call callback since it was redundant w.r.t
  site.Caller().
- added warning if CGO_ENABLED is unset.

R=crawshaw
CC=golang-dev
https://golang.org/cl/13270045
2013-09-03 15:29:02 -04:00
Alan Donovan
713699d8ad go.tools: add copyright messages to source files.
R=r
CC=golang-dev
https://golang.org/cl/13305043
2013-08-27 18:49:13 -04:00
Alan Donovan
6643abb26c go.tools/pointer: inclusion-based pointer analysis for Go.
Suggested reading order:
- doc.go
- api.go, analysis.go, callgraph.go, labels.go
- print.go, util.go
- gen.go
- solve.go
- pointer_test.go, testdata/*
- intrinsics.go (none are implemented yet)

R=dannyb, gri, crawshaw, 0xjnml
CC=golang-dev
https://golang.org/cl/10618043
2013-08-22 12:27:55 -04:00