Coq (as of version 8.4pl6) provides the module MSetInterface
which
contains interfaces for sets. There are implementations using sorted
and unsorted lists (both without duplicates) as well as AVL and RBT
trees for these interfaces. While these implementations - particularly
the ones based on binary trees - extract to reasonably efficient code,
at FireEye we nevertheless were struggling with performance
issues.
This directory contains extensions to Coq's set library that helped us, i.e. the FireEye Formal Methods team ([email protected]), solve these performance issues.
There are the following files
-
MSetWithDups.v
(interface definitions forMSetListWithDups.v
) -
MSetListWithDups.v
(unsorted Lists with duplicates) -
MSetIntervals.v
(sets implemented as intervals of integers) -
MSetFoldWithAbort.v
(efficient fold operation) -
readme.md
(this readme) -
LICENSE
(license information, LGPL 2.1) -
configure.sh
-
_CoqProject
-
Makefile
-
doc/*
(high level documentation)
The Makefile
is generated via coq_makefile
from _CoqProject
. This
is performed by configure.sh
.
This library is available as an opam package as coq-msets-extra
. In
order to use it, add the coq opam repository
opam repo add coq-released https://coq.inria.fr/opam/released
opam update
Afterwards you can install this libaray via
opam install coq-msets-extra
The file MSetIntervals.v
contains an implementation of WSetOn
,
which is backed by a sorted list of integer intervals. It is very
space efficient for large sets that can be represented by a small
number of large intervals. There are instantiations of this set for
the element types Z
, N
and nat
. Further instantiation can be
easily created by the user.
The file MSetListWithDups.v
contains an implementation of sets as
unsorted lists with duplicates. It has has an O(1) add
operation and
an O(n) union
operation. The price for this is that we allow duplicates
and fold
is allowed to visit elements multiple times. It is the users
responsibility to use this set implementation carefully and avoid adding
the same element over and over again. Otherwise, a lot of space is used and
performance of operations like filter
might become arbitrarily bad.
Since fold
is allowed to visit elements multiple times, this set
implementation cannot instantiate the standard weak set interfaces
(e.g. WSetOn
). Therefore, the file MSetWithDups.v
provides
specialized interfaces for it and establishes the connection of these
interfaces with WSetOn
.
Folding over all elements of a set is a core operation, which has close ties to the concept of iterators in languages like C++. However, while iterators allow early abort, this is not possible with the standard fold operation. As a result, many efficient iterator algorithms become inefficient when implemented via folding.
Fold with abort operations are an
answer to this issue. MSetFoldWithAbort.v
provides interfaces for a family of such
fold with abort operations and use these operations to define operation like a
very efficient filter or existence check. The interfaces
are instantiated for all of Coq's current set implementations, i.e. for
AVL trees, RBT trees, sorted lists and unsorted lists without duplicates.
Fold with abort can exploit the binary tree structure. Therefore the binary
search tree implementation can skip the most work. Sorted lists are good as well,
since the ordering can be used for aborting. For unsorted lists, operations like
filter
are not optimized, but at least operations like existence checks can
abort early.