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go/pointer/TODO
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

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-*- text -*-
Pointer analysis to-do list
===========================
CONSTRAINT GENERATION:
- support reflection
- implement native intrinsics. These vary by platform.
- unsafe.Pointer conversions. Three options:
1) unsoundly (but type-safely) treat p=unsafe.Pointer(x) conversions as
allocations, losing aliases. This is what's currently implemented.
2) unsoundly (but type-safely) treat p=unsafe.Pointer(x) and T(p)
conversions as interface boxing and unboxing operations.
This may preserve some aliasing relations at little cost.
3) soundly track physical field offsets. (Summarise dannyb's email here.)
A downside is that we can't keep the identity field of struct
allocations that identifies the object.
PRESOLVER OPTIMISATIONS
- use HVN, HRU, LE, PE, HCD, LCD.
But: LE would lose the precise detail we currently enjoy in each label.
SOLVER:
- use BDDs and/or sparse bitvectors for ptsets
- use sparse bitvectors for graph edges
- use BDD-based relational composition for e.g. offset computations.
- experiment with different worklist algorithms:
priority queue (solver visit-time order)
red-black tree (node id order)
double-ended queue (insertion order)
fast doubly-linked list (See Zhanh et al PLDI'13)
(insertion order with fast membership test)
dannyb recommends sparse bitmap.
API:
- Rely less on callbacks and more on a 'result' type
returned by Analyze().
- Abstract the callgraph into a pure interface so that
we can provide other implementations in future (e.g. RTA-based).
Also provide the option to eliminate context-sensitivity
in a callgraph to yield a smaller (less precise) callgraph.
- Some optimisations (e.g. LE, PE) may change the API.
Think about them sooner rather than later.
- Eliminate Print probe now that we can query specific ssa.Values.
Misc:
- os.Args should point to something; currently they don't.
- Test on all platforms.
Currently we assume these go/build tags: linux, amd64, !cgo.