CHANGELOG.md



To find the state of this project's repository at the time of any of these versions, check out the tags.


In this changelog, we document "large-ish" changes to Iris that affect even the
way the logic is used on paper.  We also mention some significant changes in the
Coq development, but not every API-breaking change is listed.  Changes marked
[#] still need to be ported to the Iris Documentation LaTeX file(s).

Iris master
Changes in and extensions of the theory:

[#] Change in the definition of WP, so that there is a fancy update between
the quantification over the next states and the later modality. This makes it
possible to prove more powerful lifting lemmas: The new versions feature an
"update that takes a step".
[#] Weaken the semantics of CAS in heap_lang to be efficiently implementable:
CAS may only be used to compare "unboxed" values that can be represented in a
single machine word.
[#] Add weakest preconditions for total program correctness.
[#] "(Potentially) stuck" weakest preconditions are no longer considered
experimental.

Changes in Coq:

An all-new generalized proofmode that abstracts away from Iris!  The proofmode
can now be used with non-step-indexed and even non-affine (i.e., linear)
logics.  TODO: Add reference to paper.  Developments instantiating the
proofmode typeclasses may need significant changes.  For developments just
using the proofmode tactics, porting should not be too much effort.  Notable
things to port are:

All the BI laws moved from the uPred module to the bi module.  For
example, uPred.later_equivI became bi.later_equivI.
Big-ops are automatically imported, imports of iris.base_logic.big_op have
to be removed.
The ⊢ notation can sometimes infer different (but convertible) terms when
seraching for the BI to use, which (due to Coq limitations) can lead to
failing rewrites, in particular when rewriting at function types.


The iInv tactic can now be used without the second argument (the name for
the closing update).  It will then instead add the obligation to close the
invariant to the goal.
Added support for defining derived connectives involving n-ary binders using
telescopes.
Improved pretty-printing of Iris connectives (in particular WP and fancy
updates) when Coq has to line-wrap the output.
Rename timelessP -> timeless (projection of the Timeless class)
The CMRA axiom cmra_extend is now stated in Type, using sigT instead of
in Prop using exists. This makes it possible to define the function space
CMRA even for an infinite domain.
Rename proof mode type classes for laters:


IntoLaterN → MaybeIntoLaterN (this one may strip a later)

IntoLaterN' → IntoLaterN (this one should strip a later)

IntoLaterNEnv → MaybeIntoLaterNEnv


IntoLaterNEnvs → MaybeIntoLaterNEnvs


Rename:


frag_auth_op → frac_auth_frag_op


cmra_opM_assoc → cmra_op_opM_assoc


cmra_opM_assoc_L → cmra_op_opM_assoc_L


cmra_opM_assoc' → cmra_opM_opM_assoc


namespaces has been moved to std++.
Changed IntoVal to be directly usable for rewriting e into of_val v, and
changed AsVal to be usable for rewriting via the [v <-] destruct pattern.


Iris 3.1.0 (released 2017-12-19)
Changes in and extensions of the theory:

Define uPred as a quotient on monotone predicates M -> SProp.
Get rid of some primitive laws; they can be derived:
True ⊢ □ True and □ (P ∧ Q) ⊢ □ (P ∗ Q)

Camera morphisms have to be homomorphisms, not just monotone functions.
Add a proof that f has a fixed point if f^k is contractive.
Constructions for least and greatest fixed points over monotone predicates
(defined in the logic of Iris using impredicative quantification).
Add a proof of the inverse of wp_bind.
[Experimental feature] Add new modality: ■ ("plainly").
[Experimental feature] Support verifying code that might get stuck by
distinguishing "non-stuck" vs. "(potentially) stuck" weakest
preconditions. (See [Swasey et al., OOPSLA '17] for examples.) The non-stuck
WP e @ E {{ Φ }} ensures that, as e runs, it does not get stuck. The stuck
WP e @ E ?{{ Φ }} ensures that, as usual, all invariants are preserved while
e runs, but it permits execution to get stuck. The former implies the
latter. The full judgment is WP e @ s; E {{ Φ }}, where non-stuck WP uses
stuckness bit s = NotStuck while stuck WP uses s = MaybeStuck.

Changes in Coq:

Move the prelude folder to its own project:
coq-std++

Some extensions/improvements of heap_lang:

Improve handling of pure (non-state-dependent) reductions.
Add fetch-and-add (FAA) operation.
Add syntax for all Coq's binary operations on Z.


Generalize saved_prop to let the user choose the location of the type-level
later.  Rename the general form to saved_anything.  Provide saved_prop and
saved_pred as special cases.
Improved big operators:

They are no longer tied to cameras, but work on any monoid
The version of big operations over lists was redefined so that it enjoys
more definitional equalities.


Rename some things and change notation:

The unit of a camera: empty -> unit, ∅ -> ε

Disjointness: ⊥ -> ##

A proof mode type class IntoOp -> IsOp

OFEs with all elements being discrete: Discrete -> OfeDiscrete

OFE elements whose equality is discrete: Timeless -> Discrete

Timeless propositions: TimelessP -> Timeless

Camera elements such that core x = x: Persistent -> CoreId

Persistent propositions: PersistentP -> Persistent

The persistent modality: always -> persistently

Adequacy for non-stuck weakestpre: adequate_safe -> adequate_not_stuck

Consistently SnakeCase identifiers:


CMRAMixin -> CmraMixin


CMRAT -> CmraT


CMRATotal -> CmraTotal


CMRAMorphism -> CmraMorphism


CMRADiscrete -> CmraDiscrete


UCMRAMixin -> UcmraMixin


UCMRAT -> UcmraT


DRAMixin -> DraMixin


DRAT -> DraT


STS -> Sts


Many lemmas also changed their name.  always_* became persistently_*,
and furthermore: (the following list is not complete)


impl_wand -> impl_wand_1 (it only involves one direction of the
equivalent)

always_impl_wand -> impl_wand


always_and_sep_l -> and_sep_l


always_and_sep_r -> and_sep_r


always_sep_dup -> sep_dup


wand_impl_always -> impl_wand_persistently (additionally,
the direction of this equivalence got swapped for consistency's sake)

always_wand_impl -> persistently_impl_wand (additionally, the
direction of this equivalence got swapped for consistency's sake)
The following sed snippet should get you most of the way:


sed 's/\bPersistentP\b/Persistent/g; s/\bTimelessP\b/Timeless/g; s/\bCMRADiscrete\b/CmraDiscrete/g; s/\bCMRAT\b/CmraT/g; s/\bCMRAMixin\b/CmraMixin/g; s/\bUCMRAT\b/UcmraT/g; s/\bUCMRAMixin\b/UcmraMixin/g; s/\bSTS\b/Sts/g' -i $(find -name "*.v")


PersistentL and TimelessL (persistence and timelessness of lists of
propositions) are replaces by TCForall from std++.
Fix a bunch of consistency issues in the proof mode, and make it overall more
usable.  In particular:

All proof mode tactics start the proof mode if necessary; iStartProof is
no longer needed and should only be used for building custom proof mode
tactics.
Change in the grammar of specialization patterns: >[...] -> [> ...]

Various new specification patterns for done and framing.
There is common machinery for symbolic execution of pure reductions. This
is provided by the type classes PureExec and IntoVal.
There is a new connective tc_opaque, which can be used to make definitions
opaque for type classes, and thus opaque for most tactics of the proof
mode.
Define Many missing type class instances for distributing connectives.
Implement the tactics iIntros (?) and iIntros "!#" (i.e. iAlways)
using type classes. This makes them more generic, e.g., iIntros (?) also
works when the universal quantifier is below a modality, and iAlways also
works for the plainness modality.  A breaking change, however, is that these
tactics now no longer work when the universal quantifier or modality is
behind a type class opaque definition.  Furthermore, this can change the
name of anonymous identifiers introduced with the "%" pattern.


Make ofe_fun dependently typed, subsuming iprod.  The latter got removed.
Define the generic fill operation of the ectxi_language construct in terms
of a left fold instead of a right fold. This gives rise to more definitional
equalities.
The language hierarchy (language, ectx_language, ectxi_language) is now
fully formalized using canonical structures instead of using a mixture of
type classes and canonical structures. Also, it now uses explicit mixins. The
file program_logic/ectxi_language contains some documentation on how to
setup Iris for your language.
Restore the original, stronger notion of atomicity alongside the weaker
notion. These are Atomic a e where the stuckness bit s indicates whether
expression e is weakly (a = WeaklyAtomic) or strongly
(a = StronglyAtomic) atomic.
Various improvements to solve_ndisj.
Use Hint Mode to prevent Coq from making arbitrary guesses in the presence
of evars, which often led to divergence. There are a few places where type
annotations are now needed.
The rules internal_eq_rewrite and internal_eq_rewrite_contractive are now
stated in the logic, i.e., they are iApply-friendly.


Iris 3.0.0 (released 2017-01-11)

There now is a deprecation process.  The modules *.deprecated contain
deprecated notations and definitions that are provided for backwards
compatibility and will be removed in a future version of Iris.
View shifts are radically simplified to just internalize frame-preserving
updates.  Weakestpre is defined inside the logic, and invariants and view
shifts with masks are also coded up inside Iris.  Adequacy of weakestpre is
proven in the logic. The old ownership of the entire physical state is
replaced by a user-selected predicate over physical state that is maintained
by weakestpre.
Use OFEs instead of COFEs everywhere.  COFEs are only used for solving the
recursive domain equation.  As a consequence, CMRAs no longer need a proof of
completeness.  (The old cofeT is provided by algebra.deprecated.)
Implement a new agreement construction.  Unlike the old one, this one
preserves discreteness.  dec_agree is thus no longer needed and has been moved
to algebra.deprecated.
Renaming and moving things around: uPred and the rest of the base logic are in
base_logic, while program_logic is for everything involving the general
Iris notion of a language.
Renaming in prelude.list: Rename prefix_of -> prefix and suffix_of ->
suffix in lemma names, but keep notation l1 `prefix_of` l2 and l1 `suffix_of` l2.   l1 `sublist` l2 becomes l1 `sublist_of` l2. Rename
contains -> submseteq and change  l1 `contains` l2 to l1 ⊆+ l2.
Slightly weaker notion of atomicity: an expression is atomic if it reduces in
one step to something that does not reduce further.
Changed notation for embedding Coq assertions into Iris.  The new notation is
⌜φ⌝.  Also removed = and ⊥ from the Iris scope.  (The old notations are
provided in base_logic.deprecated.)
Up-closure of namespaces is now a notation (↑) instead of a coercion.
With invariants and the physical state being handled in the logic, there is no
longer any reason to demand the CMRA unit to be discrete.
The language can now fork off multiple threads at once.
Local Updates (for the authoritative monoid) are now a 4-way relation with
syntax-directed lemmas proving them.


Iris 2.0

[heap_lang] No longer use dependent types for expressions.  Instead, values
carry a proof of closedness.  Substitution, closedness and value-ness proofs
are performed by computation after reflecting into a term langauge that knows
about values and closed expressions.
[program_logic/language] The language does not define its own "atomic"
predicate.  Instead, atomicity is defined as reducing in one step to a value.
[program_logic] Due to a lack of maintenance and usefulness, lifting lemmas
for Hoare triples are removed.


Iris 2.0-rc2
This version matches the final ICFP 2016 paper.

[algebra] Make the core of an RA or CMRA a partial function.
[program_logic/lifting] Lifting lemmas no longer round-trip through a
user-chosen predicate to define the configurations we can reduce to; they
directly relate to the operational semantics.  This is equivalent and
much simpler to read.


Iris 2.0-rc1
This is the Coq development and Iris Documentation as submitted to ICFP 2016.