tools

Commit Graph

Author	SHA1	Message	Date
Alan Donovan	74117bcfd8	go/pointer: use sparse bit vectors to represent points-to sets in solver. This optimization reduces solve time (typically >90% of the total) by about 78% when analysing real programs. It also makes the solver 100% deterministic since all iterations are ordered. Also: - remove unnecessary nodeid parameter to solve() method. - don't add a fieldInfo for singleton tuples (cosmetic fix). - inline+simplify "worklist" type. - replace "constraintset" type by a slice. LGTM=crawshaw R=crawshaw CC=golang-codereviews https://golang.org/cl/95240043	2014-06-11 13:12:15 -04:00
Alan Donovan	98ed3d3c76	go.tools/go/pointer: node renumbering This change renumbers nodes so that addressable ones (that may appear in a points-to set) all have lower numbers than non-addressable ones----initially at least: reflection, SetFinalizer, etc add new nodes during solving. This improves the efficiency of sparse PTS representations (to be added later). The largest int in a PTS is now about 20% of the previous max. Overview: - move constraint stuff into constraint.go. - add two methods to constraint: (1) renumber(): renumbers all nodeids. The implementations are very repetitive but simple. I thought hard about other ways (mixins, reflection) but decided this one was fine. (2) indirect(): report the set of nodeids whose points-to relations depend on the solver, not just the initial constraint graph. (This method is currently unused and is logically part of a forthcoming change to implement PE/LE presolver optimizations. (Perhaps I should comment it out/remove it for now.) - split up the population of the intrinsics map by file. - delete analysis.probes (unused field) - remove state="..." from panic message; unnecessary. LGTM=crawshaw R=crawshaw CC=golang-codereviews https://golang.org/cl/73320043	2014-03-11 18:37:19 -04:00

Author

SHA1

Message

Date

Alan Donovan

74117bcfd8

go/pointer: use sparse bit vectors to represent points-to sets in solver.

This optimization reduces solve time (typically >90% of the
total) by about 78% when analysing real programs.  It also
makes the solver 100% deterministic since all iterations are
ordered.

Also:
- remove unnecessary nodeid parameter to solve() method.
- don't add a fieldInfo for singleton tuples (cosmetic fix).
- inline+simplify "worklist" type.
- replace "constraintset" type by a slice.

LGTM=crawshaw
R=crawshaw
CC=golang-codereviews
https://golang.org/cl/95240043

2014-06-11 13:12:15 -04:00

Alan Donovan

98ed3d3c76

go.tools/go/pointer: node renumbering

This change renumbers nodes so that addressable ones
  (that may appear in a points-to set) all have lower
  numbers than non-addressable ones----initially at least:
  reflection, SetFinalizer, etc add new nodes during
  solving.

  This improves the efficiency of sparse PTS
  representations (to be added later).  The largest int in
  a PTS is now about 20% of the previous max.

  Overview:
  - move constraint stuff into constraint.go.
  - add two methods to constraint:
    (1) renumber(): renumbers all nodeids.  The
        implementations are very repetitive but simple.  I
        thought hard about other ways (mixins, reflection)
        but decided this one was fine.
	(2) indirect(): report the set of nodeids whose
        points-to relations depend on the solver, not just
        the initial constraint graph.
        (This method is currently unused and is logically
        part of a forthcoming change to implement PE/LE
        presolver optimizations. (Perhaps I should comment
        it out/remove it for now.)
  - split up the population of the intrinsics map by file.
  - delete analysis.probes (unused field)
  - remove state="..." from panic message; unnecessary.

LGTM=crawshaw
R=crawshaw
CC=golang-codereviews
https://golang.org/cl/73320043

2014-03-11 18:37:19 -04:00

2 Commits