Auto-discover C2 completion docs and add multi-transition table

**Motivations:** - Keep C2 verification up to date when new completion documents (m>16) are added - Make C3 status explicit: local instance vs general uniformization lock **Root causes:** - C2 verifier was hardwired to two completion files and could not generalize to future transitions - C3 general form required an explicit decision and statement of the remaining lock **Correctifs:** - Auto-discover completion docs and validate declared residual sizes and optional lists per transition - Restore backward-compatible checks block for downstream tooling **Evolutions:** - Add a deterministic multi-transition table to c2_projective artefacts - Hash the discovered completion docs list in the c2_projective run report profile - Record the explicit C3 “local vs general” decision and C3.gen target in the proof plan **Pages affectées:** - applications/collatz/collatz_k_scripts/collatz_verify_c2_projective.py - docs/artefacts/collatz/c2_projective/verification_c2_projective.json - docs/artefacts/collatz/c2_projective/verification_c2_projective.md - applications/collatz/collatz_k_scripts/collatz_generate_run_report.py - docs/collatz_run_report_2026-03-09_c2_projective.md - applications/collatz/collatz_k_scripts/plan_lemmes_manquants_et_programme_de_preuve.md
2026-03-09 01:52:04 +01:00 · 2026-03-09 01:52:04 +01:00 · ace28bbecf
commit ace28bbecf
parent 071da20b19
6 changed files with 160 additions and 117 deletions
--- a/applications/collatz/collatz_k_scripts/collatz_generate_run_report.py
+++ b/applications/collatz/collatz_k_scripts/collatz_generate_run_report.py
@ -184,6 +184,19 @@ def parse_c2_projective_metrics(verification_json: str) -> C2ProjectiveMetrics:
    )
 def _extract_c2_completion_docs_from_verification(verification_json_path: Path) -> list[Path]:
    obj = read_json(verification_json_path)
    if not isinstance(obj, dict):
        return []
    inputs = obj.get("inputs")
    if not isinstance(inputs, dict):
        return []
    docs = inputs.get("completion_docs")
    if not isinstance(docs, list) or not all(isinstance(x, str) for x in docs):
        return []
    return [Path(x) for x in docs]
 def parse_c3_local_descent_metrics(verification_json: str) -> C3LocalDescentMetrics:
    obj = read_json(Path(verification_json))
    if not isinstance(obj, dict):
@ -1153,13 +1166,13 @@ def main() -> None:
        verification_json = artefacts_dir / "verification_c2_projective.json"
        verification_md = artefacts_dir / "verification_c2_projective.md"
        metrics = parse_c2_projective_metrics(str(verification_json))
        completion_docs = _extract_c2_completion_docs_from_verification(verification_json)
        date_str = pick_report_date_from_mtime([verification_json, verification_md])
        sha_paths: list[Path] = [
            repo_root / "applications" / "collatz" / "collatz_k_scripts" / "collatz_verify_c2_projective.py",
            repo_root / "applications" / "collatz" / "collatz_k_scripts" / "noyau_both_base_4096.md",
-            repo_root / "applications" / "collatz" / "collatz_k_scripts" / "complétion_minorée_m14_vers_m15.md",
+            *[repo_root / p for p in completion_docs],
            repo_root / "applications" / "collatz" / "collatz_k_scripts" / "complétion_minorée_m15_vers_m16.md",
            verification_json,
            verification_md,
        ]
--- a/applications/collatz/collatz_k_scripts/collatz_verify_c2_projective.py
+++ b/applications/collatz/collatz_k_scripts/collatz_verify_c2_projective.py
@ -11,8 +11,7 @@ From completion-by-brothers audit documents, verify that:
 Inputs (Markdown):
 - noyau_both_base_4096.md (contains B12 list)
- complétion_minorée_m14_vers_m15.md (contains both-parent list at 2^14 + residual list at 2^15)
+- completion documents (e.g. complétion_minorée_m14_vers_m15.md, complétion_minorée_m15_vers_m16.md)
 - complétion_minorée_m15_vers_m16.md (contains both-parent list at 2^15)
 Outputs:
 - a short JSON summary (machine-checkable)
@ -151,80 +150,46 @@ def _discover_declared_residual_size(md: str, child_palier: int) -> int | None:
 def verify_c2(
    *,
    noyau_both_base_4096_md: Path,
-    completion_m14_to_m15_md: Path,
+    completion_docs: list[Path],
    completion_m15_to_m16_md: Path,
    repo_root: Path,
    output_json: Path,
    output_md: Path,
 ) -> None:
    b12_md = _read_text(noyau_both_base_4096_md)
    c1415_md = _read_text(completion_m14_to_m15_md)
    c1516_md = _read_text(completion_m15_to_m16_md)
    b12 = _parse_list_under_heading(b12_md, r"^##\s+Base projective B_12\b")
    _assert_all_odd(b12, "B12")
    if len(b12) != 192:
        raise ValueError(f"B12: expected 192 residues, got {len(b12)}")
    # m=14 -> m=15
    both14 = _parse_list_under_heading(c1415_md, r"^###\s+Parents\s+«\s+both\s+»\s+au\s+palier\s+2\^14\b")
    _assert_all_odd(both14, "Parents both (m=14)")
    children15 = _lift_children(both14, 14)
    _assert_all_odd(children15, "Computed children at m=15")
    residual15 = _parse_list_under_heading(
        c1415_md,
        r"^###\s+Résidu\s+restant\s+au\s+palier\s+2\^15\s+après\s+complétion\s+«\s+one\s+»",
    )
    _assert_all_odd(residual15, "Listed residual at m=15")
    c1415 = C2CheckResult(
        palier_parent=14,
        palier_child=15,
        both_parent_count=len(both14),
        computed_children_count=len(children15),
        listed_residual_count=len(residual15),
        children_equals_listed_residual=(set(children15) == set(residual15)),
        projection_mod_4096_equals_b12=(_project_mod_4096(both14) == set(b12)),
    )
    # m=15 -> m=16
    both15 = _parse_list_under_heading(c1516_md, r"^###\s+Parents\s+«\s+both\s+»\s+au\s+palier\s+2\^15\b")
    _assert_all_odd(both15, "Parents both (m=15)")
    children16 = _lift_children(both15, 15)
    _assert_all_odd(children16, "Computed children at m=16")
    listed_r16 = _discover_listed_residual_after_completion(c1516_md, 16)
    declared_r16_size = _discover_declared_residual_size(c1516_md, 16)
    if listed_r16 is not None:
        _assert_all_odd(listed_r16, "Listed residual at m=16")
        if set(listed_r16) != set(children16):
            raise ValueError("Listed residual at m=16 does not match computed children of both(m=15)")
    if declared_r16_size is not None and declared_r16_size != len(children16):
        raise ValueError(f"Declared |R_16^comp|={declared_r16_size} does not match computed {len(children16)}")
    # This completion file may omit the full residual after completion.
    c1516 = C2CheckResult(
        palier_parent=15,
        palier_child=16,
        both_parent_count=len(both15),
        computed_children_count=len(children16),
        listed_residual_count=len(listed_r16) if listed_r16 is not None else declared_r16_size,
        children_equals_listed_residual=(set(children16) == set(listed_r16)) if listed_r16 is not None else None,
        projection_mod_4096_equals_b12=(_project_mod_4096(both15) == set(b12)),
    )
    transitions: list[dict[str, object]] = []
-    for src_name, md in (("completion_m14_to_m15", c1415_md), ("completion_m15_to_m16", c1516_md)):
+    for doc_path in completion_docs:
        md = _read_text(doc_path)
        src = _display_path(doc_path, repo_root)
        both_blocks = _discover_both_parent_blocks(md)
        for m_parent, both in sorted(both_blocks.items()):
            _assert_all_odd(both, f"Parents both (m={m_parent}) in {src}")
            child_palier = m_parent + 1
            children = _lift_children(both, m_parent)
            _assert_all_odd(children, f"Computed children (m={child_palier}) in {src}")
            listed = _discover_listed_residual_after_completion(md, child_palier)
            declared = _discover_declared_residual_size(md, child_palier)
            if listed is not None:
                _assert_all_odd(listed, f"Listed residual (m={child_palier}) in {src}")
                if set(children) != set(listed):
                    raise ValueError(
                        f"Residual list mismatch for m={m_parent}→{child_palier} in {src}: "
                        "listed residual does not match computed children of both"
                    )
            if declared is not None and declared != len(children):
                raise ValueError(
                    f"Declared |R_{child_palier}^comp|={declared} does not match computed {len(children)} for {src}"
                )
            transitions.append(
                {
-                    "source": src_name,
+                    "source": src,
                    "palier_parent": m_parent,
                    "palier_child": child_palier,
                    "both_parent_count": len(both),
@ -235,11 +200,36 @@ def verify_c2(
                }
            )
    # Stable ordering for deterministic JSON/MD
    transitions = sorted(
        transitions,
        key=lambda d: (str(d["source"]), int(d["palier_parent"]), int(d["palier_child"])),
    )
    def _pick_check(parent_m: int) -> C2CheckResult:
        matches = [t for t in transitions if int(t["palier_parent"]) == parent_m and int(t["palier_child"]) == parent_m + 1]
        if not matches:
            raise ValueError(f"Missing expected transition m={parent_m}→{parent_m+1} in discovered completion docs")
        # deterministic: pick first by our transition ordering
        t = matches[0]
        return C2CheckResult(
            palier_parent=int(t["palier_parent"]),
            palier_child=int(t["palier_child"]),
            both_parent_count=int(t["both_parent_count"]),
            computed_children_count=int(t["computed_children_count"]),
            listed_residual_count=(int(t["listed_residual_count"]) if t["listed_residual_count"] is not None else None),
            children_equals_listed_residual=(bool(t["children_equals_listed_residual"]) if t["children_equals_listed_residual"] is not None else None),
            projection_mod_4096_equals_b12=bool(t["projection_mod_4096_equals_b12"]),
        )
    # Backward-compatible checks block for report generator / downstream tooling.
    c1415 = _pick_check(14)
    c1516 = _pick_check(15)
    summary = {
        "inputs": {
            "noyau_both_base_4096_md": _display_path(noyau_both_base_4096_md, repo_root),
-            "completion_m14_to_m15_md": _display_path(completion_m14_to_m15_md, repo_root),
+            "completion_docs": [_display_path(p, repo_root) for p in completion_docs],
            "completion_m15_to_m16_md": _display_path(completion_m15_to_m16_md, repo_root),
        },
        "B12": {"count": len(b12), "min": min(b12), "max": max(b12)},
        "transitions": transitions,
@ -248,9 +238,11 @@ def verify_c2(
            "m15_to_m16": c1516.__dict__,
        },
        "ok": {
-            "m14_to_m15_children_equals_listed_residual": bool(c1415.children_equals_listed_residual),
+            "all_transitions_project_to_B12": all(bool(t["projection_mod_4096_equals_b12"]) for t in transitions),
-            "m14_projection_equals_b12": bool(c1415.projection_mod_4096_equals_b12),
+            "all_listed_residuals_match_children": all(
-            "m15_projection_equals_b12": bool(c1516.projection_mod_4096_equals_b12),
+                (t["children_equals_listed_residual"] is None) or bool(t["children_equals_listed_residual"])
                for t in transitions
            ),
        },
    }
@ -265,29 +257,45 @@ def verify_c2(
    lines.append("## Entrées")
    lines.append("")
    lines.append(f"- `noyau_both_base_4096.md` : `{_display_path(noyau_both_base_4096_md, repo_root)}`")
-    lines.append(f"- `complétion_minorée_m14_vers_m15.md` : `{_display_path(completion_m14_to_m15_md, repo_root)}`")
+    for p in completion_docs:
-    lines.append(f"- `complétion_minorée_m15_vers_m16.md` : `{_display_path(completion_m15_to_m16_md, repo_root)}`")
+        lines.append(f"- completion : `{_display_path(p, repo_root)}`")
    lines.append("")
    lines.append("## Base projective B12")
    lines.append("")
    lines.append(f"- |B12| = {len(b12)} (attendu 192)")
    lines.append(f"- min(B12) = {min(b12)}, max(B12) = {max(b12)}")
    lines.append("")
-    lines.append("## Transition m=14 → m=15 (complétion par frères ⇒ résidu = enfants des both)")
+    lines.append("## Transitions détectées (table multi-transitions)")
    lines.append("")
-    lines.append(f"- |both parents (m=14)| = {c1415.both_parent_count}")
+    header = [
-    lines.append(f"- |computed children (m=15)| = {c1415.computed_children_count} (attendu 2*|both|)")
+        "source",
-    lines.append(f"- |listed residual (m=15)| = {c1415.listed_residual_count}")
+        "m",
-    lines.append(f"- computed children == listed residual : {c1415.children_equals_listed_residual}")
+        "m+1",
-    lines.append(f"- projection both(m=14) mod 4096 == B12 : {c1415.projection_mod_4096_equals_b12}")
+        "|both(m)|",
-    lines.append("")
+        "|children(m+1)|",
-    lines.append("## Transition m=15 → m=16 (projection des both)")
+        "|listed residual|",
-    lines.append("")
+        "children==listed",
-    lines.append(f"- |both parents (m=15)| = {c1516.both_parent_count}")
+        "both mod 4096 == B12",
-    lines.append(f"- |computed children (m=16)| = {c1516.computed_children_count} (attendu 2*|both|)")
+    ]
-    if c1516.listed_residual_count is not None:
+    lines.append("| " + " | ".join(header) + " |")
-        lines.append(f"- |listed residual (m=16)| : {c1516.listed_residual_count}")
+    lines.append("| " + " | ".join(["---"] * len(header)) + " |")
-    lines.append(f"- projection both(m=15) mod 4096 == B12 : {c1516.projection_mod_4096_equals_b12}")
+    for t in transitions:
        lines.append(
            "| "
            + " | ".join(
                [
                    str(t["source"]),
                    str(t["palier_parent"]),
                    str(t["palier_child"]),
                    str(t["both_parent_count"]),
                    str(t["computed_children_count"]),
                    str(t["listed_residual_count"]) if t["listed_residual_count"] is not None else "",
                    str(t["children_equals_listed_residual"]) if t["children_equals_listed_residual"] is not None else "",
                    str(t["projection_mod_4096_equals_b12"]),
                ]
            )
            + " |"
        )
    lines.append("")
    lines.append("## Sorties")
    lines.append("")
@ -306,21 +314,22 @@ def main() -> None:
        default="",
        help="Repository root used to display relative paths in outputs (defaults to current working directory)",
    )
    ap.add_argument(
        "--completion-dir",
        default="",
        help="Directory to auto-discover completion markdown files (default: collatz_k_scripts directory)",
    )
    ap.add_argument(
        "--completion-md",
        action="append",
        default=[],
        help="Completion markdown file (repeatable). If provided, disables auto-discovery.",
    )
    ap.add_argument(
        "--noyau-both-base-4096-md",
        default=str(Path(__file__).parent / "noyau_both_base_4096.md"),
        help="Path to noyau_both_base_4096.md",
    )
    ap.add_argument(
        "--completion-m14-to-m15-md",
        default=str(Path(__file__).parent / "complétion_minorée_m14_vers_m15.md"),
        help="Path to complétion_minorée_m14_vers_m15.md",
    )
    ap.add_argument(
        "--completion-m15-to-m16-md",
        default=str(Path(__file__).parent / "complétion_minorée_m15_vers_m16.md"),
        help="Path to complétion_minorée_m15_vers_m16.md",
    )
    ap.add_argument(
        "--output-dir",
        default="docs/artefacts/collatz/c2_projective",
@ -329,11 +338,19 @@ def main() -> None:
    args = ap.parse_args()
    repo_root = Path(args.repo_root).resolve() if args.repo_root.strip() else Path.cwd().resolve()
    completion_docs: list[Path]
    if args.completion_md:
        completion_docs = [Path(p).resolve() for p in args.completion_md]
    else:
        completion_dir = Path(args.completion_dir).resolve() if args.completion_dir.strip() else Path(__file__).parent.resolve()
        completion_docs = sorted(completion_dir.glob("complétion*_m*_vers_m*.md"))
        if not completion_docs:
            raise ValueError(f"No completion docs found under {completion_dir}")
    out_dir = Path(args.output_dir)
    verify_c2(
        noyau_both_base_4096_md=Path(args.noyau_both_base_4096_md),
-        completion_m14_to_m15_md=Path(args.completion_m14_to_m15_md),
+        completion_docs=completion_docs,
        completion_m15_to_m16_md=Path(args.completion_m15_to_m16_md),
        repo_root=repo_root,
        output_json=out_dir / "verification_c2_projective.json",
        output_md=out_dir / "verification_c2_projective.md",
--- a/applications/collatz/collatz_k_scripts/plan_lemmes_manquants_et_programme_de_preuve.md
+++ b/applications/collatz/collatz_k_scripts/plan_lemmes_manquants_et_programme_de_preuve.md
@ -278,6 +278,26 @@ Artefact déterministe (script + sorties courtes) :
 Cet artefact vérifie l’égalité \(U(m)=U^{(t)}(n)\), la stricte inégalité \(m<n\) pour les témoins de fusion, la cohérence des seuils \(N_0\) (descente exacte) et \(N_F\) (fusion) lorsqu’ils sont calculables, et agrège une borne \(N^\star\) sur cette instance.
 ### Statut et forme générale (au-delà de \(2^{13}\))
 Décision explicite.
 À ce stade, C3 est **instrumenté comme une instance locale** au palier \(2^{13}\) sur \(L=\mathrm{Lift}_{12\to 13}(B_{12})\).
 La preuve “globale” ne suit pas encore d’une simple citation de cette instance : le verrou redevient une **uniformisation / itération** du schéma \(C1+C2\to C3\) au-delà du palier \(2^{13}\).
 Cible formelle (C3 général).
 Une forme générale exploitable de C3 doit expliciter un mécanisme uniformisable, par exemple :
 - (C3.gen) pour tout \(m\ge 13\) et tout \(n\in \mathrm{Lift}_{12\to m}(B_{12})\), il existe un témoin D/F (au sens de (H4)–(H5)) produisant un entier impair \(n'\) strictement plus petit que \(n\), et une borne \(N^\star\) telle que ce mécanisme soit valide pour tous \(n\ge N^\star\) dans les classes concernées ;
 - et la réduction obtenue par itération amène nécessairement sous \(N^\star\) (clôture par validation de base finie).
 Verrou technique précis.
 Passer de l’instance locale au cas général exige de relier les témoins observés à des **clauses** valides au sens global :
 - D exact : contrôler l’extension “pour tout \(n\) dans une classe modulo \(2^m\), pour tout \(n\ge N_0\)” via les formules affines (seuil \(N_0\)) ;
 - fusion : contrôler l’extension “pour tout \(n\) dans une classe modulo \(2^m\), pour tout \(n\ge N_F\)” et la propriété de réduction \(m<n\) sans la prouver seulement sur un représentant.
 En l’absence de ce passage, l’instance locale reste un artefact d’audit (citable), et le verrou global est formulé comme “uniformiser / itérer” (C1+C2→C3) sur des paliers arbitraires.
 ## Conclusion
 La trajectoire D18–D21 (F15/F16) augmente le matériau et affine la cartographie du noyau résiduel, mais la preuve complète exige encore l’un des deux verrous : extinction à palier fini (certificat total) ou contraction uniforme (lemme analytique).
--- a/docs/artefacts/collatz/c2_projective/verification_c2_projective.json
+++ b/docs/artefacts/collatz/c2_projective/verification_c2_projective.json
@ -1,8 +1,10 @@
 {
  "inputs": {
    "noyau_both_base_4096_md": "applications/collatz/collatz_k_scripts/noyau_both_base_4096.md",
-    "completion_m14_to_m15_md": "applications/collatz/collatz_k_scripts/complétion_minorée_m14_vers_m15.md",
+    "completion_docs": [
-    "completion_m15_to_m16_md": "applications/collatz/collatz_k_scripts/complétion_minorée_m15_vers_m16.md"
+      "applications/collatz/collatz_k_scripts/complétion_minorée_m14_vers_m15.md",
      "applications/collatz/collatz_k_scripts/complétion_minorée_m15_vers_m16.md"
    ]
  },
  "B12": {
    "count": 192,
@ -11,7 +13,7 @@
  },
  "transitions": [
    {
-      "source": "completion_m14_to_m15",
+      "source": "applications/collatz/collatz_k_scripts/complétion_minorée_m14_vers_m15.md",
      "palier_parent": 14,
      "palier_child": 15,
      "both_parent_count": 593,
@ -21,7 +23,7 @@
      "projection_mod_4096_equals_b12": true
    },
    {
-      "source": "completion_m15_to_m16",
+      "source": "applications/collatz/collatz_k_scripts/complétion_minorée_m15_vers_m16.md",
      "palier_parent": 15,
      "palier_child": 16,
      "both_parent_count": 1101,
@ -52,8 +54,7 @@
    }
  },
  "ok": {
-    "m14_to_m15_children_equals_listed_residual": true,
+    "all_transitions_project_to_B12": true,
-    "m14_projection_equals_b12": true,
+    "all_listed_residuals_match_children": true
    "m15_projection_equals_b12": true
  }
 }
--- a/docs/artefacts/collatz/c2_projective/verification_c2_projective.md
+++ b/docs/artefacts/collatz/c2_projective/verification_c2_projective.md
@ -5,28 +5,20 @@
 ## Entrées
 - `noyau_both_base_4096.md` : `applications/collatz/collatz_k_scripts/noyau_both_base_4096.md`
- `complétion_minorée_m14_vers_m15.md` : `applications/collatz/collatz_k_scripts/complétion_minorée_m14_vers_m15.md`
+- completion : `applications/collatz/collatz_k_scripts/complétion_minorée_m14_vers_m15.md`
- `complétion_minorée_m15_vers_m16.md` : `applications/collatz/collatz_k_scripts/complétion_minorée_m15_vers_m16.md`
+- completion : `applications/collatz/collatz_k_scripts/complétion_minorée_m15_vers_m16.md`
 ## Base projective B12
 - |B12| = 192 (attendu 192)
 - min(B12) = 27, max(B12) = 4095
-## Transition m=14 → m=15 (complétion par frères ⇒ résidu = enfants des both)
+## Transitions détectées (table multi-transitions)
- |both parents (m=14)| = 593
+| source | m | m+1 | |both(m)| | |children(m+1)| | |listed residual| | children==listed | both mod 4096 == B12 |
- |computed children (m=15)| = 1186 (attendu 2*|both|)
+| --- | --- | --- | --- | --- | --- | --- | --- |
- |listed residual (m=15)| = 1186
+| applications/collatz/collatz_k_scripts/complétion_minorée_m14_vers_m15.md | 14 | 15 | 593 | 1186 | 1186 | True | True |
- computed children == listed residual : True
+| applications/collatz/collatz_k_scripts/complétion_minorée_m15_vers_m16.md | 15 | 16 | 1101 | 2202 | 2202 |  | True |
 - projection both(m=14) mod 4096 == B12 : True
 ## Transition m=15 → m=16 (projection des both)
 - |both parents (m=15)| = 1101
 - |computed children (m=16)| = 2202 (attendu 2*|both|)
 - |listed residual (m=16)| : 2202
 - projection both(m=15) mod 4096 == B12 : True
 ## Sorties
--- a/docs/collatz_run_report_2026-03-09_c2_projective.md
+++ b/docs/collatz_run_report_2026-03-09_c2_projective.md
@ -9,7 +9,7 @@
 ## Code et reproductibilité
- **Commit Git** : `e3e68fe39c8ad466e5741e87d20311ca93b2456e`
+- **Commit Git** : `071da20b190207aebcbbbaad8e57b9e21b8282c6`
 - **Commande** :
 ```bash
@ -19,7 +19,7 @@ python3 applications/collatz/collatz_k_scripts/collatz_generate_run_report.py --
 ## Empreintes sha256 (scripts, artefacts)
 - `/home/ncantu/code/algo/applications/collatz/collatz_k_scripts/collatz_verify_c2_projective.py`
-  - sha256: `bad3ddd4288af4a8b7bcc4fa30c1f5350db16f352b6eaf29918e8c1e1428a5b0`
+  - sha256: `40fc1ae3e560f4baa5ae47ee63412a8634a7314899ff21eb117bf64023d61e5d`
 - `/home/ncantu/code/algo/applications/collatz/collatz_k_scripts/noyau_both_base_4096.md`
  - sha256: `d0abffeca9ce2356d13b31ee4325b68fd85cf061670a8524b8e60fd15aba881b`
 - `/home/ncantu/code/algo/applications/collatz/collatz_k_scripts/complétion_minorée_m14_vers_m15.md`
@ -27,9 +27,9 @@ python3 applications/collatz/collatz_k_scripts/collatz_generate_run_report.py --
 - `/home/ncantu/code/algo/applications/collatz/collatz_k_scripts/complétion_minorée_m15_vers_m16.md`
  - sha256: `956f8fd19570b7614705384995b52b6bf81399ca8dc36c3ea33bcbad3e4aff50`
 - `/home/ncantu/code/algo/docs/artefacts/collatz/c2_projective/verification_c2_projective.json`
-  - sha256: `259901a9e4e307dae238672cc3e2e1e016800f034cdd98efe929e69bc1e4068a`
+  - sha256: `3f5ee61f259c90138d7c9fd3e8a2331947a2e25988bea349f246ad90fb1e43ec`
 - `/home/ncantu/code/algo/docs/artefacts/collatz/c2_projective/verification_c2_projective.md`
-  - sha256: `dc5562fea53f62e88acc08bcd29c89c53e9ad6e5fc4d41351642e7942cc49bdc`
+  - sha256: `f4f5e00365ec6cc2253f2ef80ca51414d4ad79dc51bc0a408ff1bb352eba39f5`
 ## Compteurs et métriques