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feat: Rewrite the Intervals module entirely
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The existing Intervals module suffers from multiple drawbacks. It is
undocumented, uses a questionable implementation where explanations
associated with each internal bounds have unclear semantics (did I
mention it is not documented), and it has been the source of many
soundness bug in the past due to the way it uses exceptions to indicate
emptiness. This makes it hard to extend the module; for instance OCamlPro#1058
was delayed because we were not quite sure whether the implementation of
functions related to bit-vectors were correct.

This patch is a reimplementation of the Intervals module from scratch.
The new implementation keeps the representation used by the `intersect`
futnction in the existing implementation (and in a way can be thought of
as resolving the TODO in the existing implementation suggesting to
generalize that type). It is thoroughly documented, and is split between
a "core" module that provides safe functions to deal with explanations,
and specialized implementations for common functions (addition,
multiplication, etc.) using the "core" interface such that reasoning
about the implementation of addition etc. does not require thinking
about explanations at all. This makes it easier to extend the module
with new specialized functions.

The implementation is done through a (small) family of functors,
allowing separate implementations for real and integer intervals that
prevent accidentally mixing them up.

For the time being, the old interface is re-implemented on top of the
new interface (except where implementation details leaked too much) so
as to keep the changes mostly confined to the `Intervals` module.
Migrating to the new interface (and especially abandoning the use of
exceptions) will be done in a second step.

The patch is relatively big, but can't realistically be split into
smaller parts without ending up in intermediate states full of dead
code. I suggest reviewers first take a look at the documentation of the
`OrderedType`, `Interval` and `Union` signatures in the `Intervals_intf`
module (note that this includes some LaTeX, and might be easier to
read using `odoc` -- I tried to make sure the `odoc`-generated
documentation was usable). This should provide a good understanding of
the "core" functionality of the new implementation. The rest of the
review can be split into parts that should be mostly independent:

 - Implementation of the `OrderedType` interface for `Z.t` and `Q.t` in
   `ZEuclideanType` and `QAlgebraicType`;

 - Implementation of the concrete functions for addition,
   multiplication, etc. in the `Intervals` module;

 - Re-implementation of the old API in the `Intervals.Legacy` module
   (and minor related changes in other modules, notably
   `IntervalCalculus`);

 - Implementation of the "core" functionality in the `Intervals_core`
   module.
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bclement-ocp committed May 10, 2024
1 parent b464ec3 commit bba0ec8
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Showing 12 changed files with 2,745 additions and 1,465 deletions.
5 changes: 4 additions & 1 deletion src/bin/common/parse_command.ml
Original file line number Diff line number Diff line change
Expand Up @@ -158,6 +158,7 @@ module Debug = struct
| Fpa
| Gc
| Interpretation
| Intervals
| Matching
| Sat
| Split
Expand All @@ -174,7 +175,7 @@ module Debug = struct
let all = [
Debug; Ac; Adt; Arith; Arrays; Bitv; Sum; Ite;
Cc; Combine; Constr; Explanation; Fm; Fpa; Gc;
Interpretation; Matching; Sat; Split; Triggers;
Interpretation; Intervals; Matching; Sat; Split; Triggers;
Types; Typing; Uf; Unsat_core; Use; Warnings;
Commands; Optimize
]
Expand All @@ -196,6 +197,7 @@ module Debug = struct
| Fpa -> "fpa"
| Gc -> "gc"
| Interpretation -> "interpretation"
| Intervals -> "intervals"
| Matching -> "matching"
| Sat -> "sat"
| Split -> "split"
Expand Down Expand Up @@ -228,6 +230,7 @@ module Debug = struct
| Fpa -> Options.set_debug_fpa verbosity
| Gc -> Options.set_debug_gc true
| Interpretation -> Options.set_debug_interpretation true
| Intervals -> Options.set_debug_intervals true
| Matching -> Options.set_debug_matching verbosity
| Sat -> Options.set_debug_sat true
| Split -> Options.set_debug_split true
Expand Down
7 changes: 4 additions & 3 deletions src/lib/dune
Original file line number Diff line number Diff line change
Expand Up @@ -49,9 +49,10 @@
; reasoners
Ac Arith Arrays_rel Bitv Ccx Shostak Relation Enum Enum_rel
Fun_sat Fun_sat_frontend Inequalities Bitv_rel Th_util Adt Adt_rel
Instances IntervalCalculus Intervals Ite_rel Matching Matching_types
Polynome Records Records_rel Satml_frontend_hybrid Satml_frontend Satml
Sat_solver Sat_solver_sig Sig Sig_rel Theory Uf Use Rel_utils Bitlist
Instances IntervalCalculus Intervals_intf Intervals_core Intervals
Ite_rel Matching Matching_types Polynome Records Records_rel
Satml_frontend_hybrid Satml_frontend Satml Sat_solver Sat_solver_sig
Sig Sig_rel Theory Uf Use Rel_utils Bitlist
; structures
Commands Errors Explanation Fpa_rounding
Parsed Profiling Satml_types Symbols
Expand Down
4 changes: 2 additions & 2 deletions src/lib/reasoners/inequalities.ml
Original file line number Diff line number Diff line change
Expand Up @@ -121,10 +121,10 @@ module Container : Container_SIG = struct
let ple0 = P.sub p1 p2 in
match P.to_list ple0 with
| ([], ctt) when is_le && Q.sign ctt > 0->
raise (Intervals.NotConsistent expl)
raise (Intervals.Legacy.NotConsistent expl)

| ([], ctt) when not is_le && Q.sign ctt >= 0 ->
raise (Intervals.NotConsistent expl)
raise (Intervals.Legacy.NotConsistent expl)

| _ ->
let p,c,d = P.normal_form ple0 in (* ple0 = (p + c) * d, and d > 0 *)
Expand Down
147 changes: 66 additions & 81 deletions src/lib/reasoners/intervalCalculus.ml
Original file line number Diff line number Diff line change
Expand Up @@ -39,7 +39,7 @@ module Q = Numbers.Q
module L = Xliteral

module Sy = Symbols
module I = Intervals
module I = Intervals.Legacy

open Inequalities

Expand Down Expand Up @@ -492,8 +492,8 @@ let generic_add x j use is_mon env =
let p, c = P.separate_constant p0 in
let p, c0, d = P.normal_form_pos p in
assert (Q.sign d <> 0 && Q.sign c0 = 0);
let j = I.add j (I.point (Q.minus c) ty Explanation.empty) in
let j = I.scale (Q.inv d) j in
(* x = (p + c0) * d <-> p = x * 1/d - c0 / d *)
let j = I.affine_scale ~coef:(Q.inv d) ~const:(Q.div (Q.minus c) d) j in
try MP.n_add p j (MP.n_find p env.polynomes) env
with Not_found -> MP.n_add p j (I.undefined ty) env

Expand Down Expand Up @@ -769,14 +769,14 @@ let rec init_monomes_of_poly are_eq env p use_p expl =
update_monome are_eq expl use_p env x
) env (fst (P.to_list p))

and init_alien are_eq expl p (normal_p, c, d) ty use_x env =
and init_alien are_eq expl p (normal_p, c, d) use_x env =
let env = init_monomes_of_poly are_eq env p use_x expl in
let i = intervals_from_monomes env p in
let i =
try
(* p = (normal_p + c) * d *)
let old_i = MP.n_find normal_p env.polynomes in
let old_i = I.scale d
(I.add old_i (I.point c ty Explanation.empty)) in
let old_i = I.affine_scale ~const:(Q.mult c d) ~coef:d old_i in
I.intersect i old_i
with Not_found -> i
in
Expand Down Expand Up @@ -822,10 +822,10 @@ and update_monome are_eq expl use_x env x =
let (pa', ca, da) as npa = P.normal_form_pos pa in
let (pb', cb, db) as npb = P.normal_form_pos pb in
let env, ia =
init_alien are_eq expl pa npa ty use_x env in
init_alien are_eq expl pa npa use_x env in
let ia = I.add_explanation ia ea in (* take repr into account*)
let env, ib =
init_alien are_eq expl pb npb ty use_x env in
init_alien are_eq expl pb npb use_x env in
let ib = I.add_explanation ib eb in (* take repr into account*)
let ia, ib = match cannot_be_equal_to_zero env pb ib with
| Some (ex, _) when Q.equal ca cb
Expand Down Expand Up @@ -867,7 +867,7 @@ let rec tighten_ac are_eq x env expl =
let env =
if is_alien x then
(* identity *)
let u = I.root n u in
let u = I.coerce ty (I.root n (I.coerce Treal u)) in
let (pu, use_px) =
try MX.n_find x env.monomes (* we know that x is a monome *)
with Not_found -> I.undefined ty, SX.empty
Expand All @@ -884,7 +884,7 @@ let rec tighten_ac are_eq x env expl =
Symbols.equal h (Symbols.Op Symbols.Mult) && n > 2 ->
let env =
if is_alien x then
let u = I.root n u in
let u = I.coerce ty (I.root n (I.coerce Treal u)) in
let pu, use_px =
try MX.n_find x env.monomes (* we know that x is a monome *)
with Not_found -> I.undefined ty, SX.empty
Expand Down Expand Up @@ -920,19 +920,19 @@ and tighten_non_lin are_eq x use_x env expl =

let update_monomes_from_poly p i env =
let lp, _ = P.to_list p in
let ty = P.type_info p in
List.fold_left (fun env (a,x) ->
let np = P.remove x p in
let (np,c,d) = P.normal_form_pos np in
(* a * x + (np + c) * d = 0 -> a * x = -d * np - d * c *)
try
let inp = MP.n_find np env.polynomes in
let new_ix =
I.scale
(Q.div Q.one a)
(Q.inv a)
(I.add i
(I.scale (Q.minus d)
(I.add inp
(I.point c ty Explanation.empty)))) in
(I.affine_scale
~coef:(Q.minus d) ~const:(Q.mult (Q.minus d) c) inp))
in
let old_ix, ux = MX.n_find x env.monomes in
let ix = I.intersect old_ix new_ix in
MX.n_add x (ix, ux) old_ix env
Expand Down Expand Up @@ -1389,25 +1389,23 @@ let add_disequality are_eq env eqs p expl =
env, eqs
| ([a, x], v) ->
let b = Q.div (Q.minus v) a in
let i1 = I.point b ty expl in
let i2, use2 =
try
MX.n_find x env.monomes
with Not_found -> I.undefined ty, SX.empty
in
let i = I.exclude i1 i2 in
let i = I.exclude ~ex:expl b i2 in
let env = MX.n_add x (i,use2) i2 env in
let env = tighten_non_lin are_eq x use2 env expl in
env, find_eq eqs x i env
| _ ->
let p, c, _ = P.normal_form_pos p in
let i1 = I.point (Q.minus c) ty expl in
let i2 =
try
MP.n_find p env.polynomes
with Not_found -> I.undefined ty
in
let i = I.exclude i1 i2 in
let i = I.exclude ~ex:expl (Q.minus c) i2 in
let env =
if I.is_strict_smaller i i2 then
update_monomes_from_poly p i (MP.n_add p i i2 env)
Expand Down Expand Up @@ -1819,11 +1817,16 @@ let new_terms _ = SE.empty

let case_split_union_of_intervals =
let aux acc uf i z =
if Uf.is_normalized uf z then
match I.bounds_of i with
| [] -> assert false
| [_] -> ()
| (_,(v, ex))::_ -> acc := Some (z, v, ex); raise Exit
if Uf.is_normalized uf z then (
ignore @@
I.fold (fun prev { lb = _ ; ub } ->
match prev, ub with
| None, Open ub -> Some (L.LT, ub)
| None, Closed ub -> Some (L.LE, ub)
| Some bnd, _ -> acc := Some (z, bnd); raise Exit
| None, _ -> None
) None i
)
in fun env uf ->
let cs = ref None in
try
Expand All @@ -1833,38 +1836,20 @@ let case_split_union_of_intervals =
with Exit ->
match !cs with
| None -> assert false
| Some(_,None, _) -> assert false
| Some(r1,Some (n, eps), _) ->
| Some (r1, (pred, n)) ->
let ty = X.type_info r1 in
let r2 = alien_of (P.create [] n ty) in
let pred =
if Q.is_zero eps then L.LE else (assert (Q.is_m_one eps); L.LT)
in
[LR.mkv_builtin true pred [r1; r2], true,
Th_util.CS (Th_util.Th_arith, Q.one)]


(*****)

let bnd_to_simplex_bound ((bnd, explanation) : I.bnd) : Sim.Core.bound option =
match bnd with
| None -> None
| Some (bnd, offset) ->
let bvalue =
if Q.equal offset Q.one
then Sim.Core.R2.lower bnd
else if Q.equal offset Q.m_one
then Sim.Core.R2.upper bnd
else if Q.equal offset Q.zero
then Sim.Core.R2.of_r bnd
else assert false (* alt-ergo style *)
in Some {bvalue; explanation}

let int_constraints_from_map_intervals =
let aux p xp i uf acc =
if Uf.is_normalized uf xp && I.is_point i == None
&& P.type_info p == Ty.Tint
then (p, I.bounds_of i) :: acc
then (p, I.integer_hull i) :: acc
else acc
in
fun env uf ->
Expand All @@ -1878,36 +1863,37 @@ let fm_simplex_unbounded_integers_encoding env uf =
let simplex = Sim.Core.empty ~is_int:true ~check_invs:true in
let int_ctx = int_constraints_from_map_intervals env uf in
List.fold_left
(fun simplex (p, uints) ->
match uints with
| [] ->
Printer.print_err "Intervals already empty !!!";
assert false
| _::_::_ ->
Printer.print_err
"case-split over unions of intervals is needed !!!";
assert false

| [(lb, ex_lb), (ub, ex_ub)] ->
let l, c = P.to_list p in
assert (Q.is_zero c);
assert (lb == None || ub == None);
let min = bnd_to_simplex_bound (lb, ex_lb) in
let max = bnd_to_simplex_bound (ub, ex_ub) in
match l with
| [] -> assert false
| [c, x] ->
assert (Q.is_one c);
Sim.Assert.var simplex x ?min ?max |> fst
| _ ->
let l = List.rev_map (fun (c, x) -> x, c) (List.rev l) in
let xp = alien_of p in
let sim_p =
match Sim.Core.poly_of_slake simplex xp with
| Some res -> res
| None -> Sim.Core.P.from_list l
in
Sim.Assert.poly simplex sim_p xp ?min ?max |> fst
(fun simplex (p, (lb, ub)) ->
let l, c = P.to_list p in
assert (Q.is_zero c);
let min =
match lb with
| Some (lb, ex_lb) ->
let lb = Q.from_z lb in
Some Sim.Core.{ bvalue = R2.of_r lb ; explanation = ex_lb }
| None -> None
in
let max =
match ub with
| Some (ub, ex_ub) ->
let ub = Q.from_z ub in
Some Sim.Core.{ bvalue = R2.of_r ub ; explanation = ex_ub }
| None -> None
in
match l with
| [] -> assert false
| [c, x] ->
assert (Q.is_one c);
Sim.Assert.var simplex x ?min ?max |> fst
| _ ->
let l = List.rev_map (fun (c, x) -> x, c) (List.rev l) in
let xp = alien_of p in
let sim_p =
match Sim.Core.poly_of_slake simplex xp with
| Some res -> res
| None -> Sim.Core.P.from_list l
in
Sim.Assert.poly simplex sim_p xp ?min ?max |> fst

) simplex int_ctx

Expand Down Expand Up @@ -2006,15 +1992,15 @@ let middle_value env ~is_max ty p bound =
begin
try
if is_max then
Intervals.new_borne_sup Ex.empty bound ~is_le:false i
I.new_borne_sup Ex.empty bound ~is_le:false i
else
Intervals.new_borne_inf Ex.empty bound ~is_le:false i
with Intervals.NotConsistent _ -> assert false
I.new_borne_inf Ex.empty bound ~is_le:false i
with I.NotConsistent _ -> assert false
end
| Some i, None -> i
| None, _ -> Intervals.point Q.zero ty Ex.empty
| None, _ -> I.point Q.zero ty Ex.empty
in
let q = Option.get (Intervals.pick ~is_max interval) in
let q = I.pick ~is_max interval in
alien_of (P.create [] q ty)

let optimizing_objective env uf Objective.Function.{ e; is_max; _ } =
Expand Down Expand Up @@ -2261,8 +2247,7 @@ let domain_matching _lem_name tr sbt env uf optimized =
let p = poly_of rr in
let p', c', d = P.normal_form_pos p in
let env, i' = best_interval_of optimized env p' in
let ic = I.point c' (P.type_info p') Explanation.empty in
let i = I.scale d (I.add i' ic) in
let i = I.affine_scale ~coef:d ~const:(Q.mult d c') i' in
begin match I.match_interval lb ub i idoms with
| None -> raise (Sem_match_fails env)
| Some idoms -> idoms, maps_to, env, uf
Expand Down
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