feat(joinir): Phase 200-A ConditionEnv extension infrastructure

Added type and skeleton infrastructure for function-scoped variable capture, preparing for Phase 200-B integration with ConditionEnv. New Types: - CapturedVar: { name, host_id, is_immutable } - CapturedEnv: Collection of captured variables - ParamRole: { LoopParam, Condition, Carrier, ExprResult } New Functions (Skeletons): - analyze_captured_vars(): Detects function-scoped "constants" - build_with_captures(): ConditionEnvBuilder v2 entry point - add_param_with_role(): Role-based parameter routing New File: - src/mir/loop_pattern_detection/function_scope_capture.rs Design Principles: - Infra only: Types and skeletons, no behavior changes - Existing behavior maintained: All current loops work identically - Box-first: New responsibilities in new file - Documentation: Future implementation plans in code comments Test Results: - 6 new unit tests (function_scope_capture: 3, param_role: 3) - All 804 existing tests PASS (0 regressions) Next: Phase 200-B (actual capture detection and integration) 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
2025-12-09 16:19:08 +09:00
parent f47fa9a7a8
commit 3a9b44c4e2
7 changed files with 914 additions and 1 deletions
--- a/CURRENT_TASK.md
+++ b/CURRENT_TASK.md
@ -389,6 +389,21 @@
        - **次候補**:
          - Phase 200+: ConditionEnv 拡張（_parse_number, _atoi）
          - Phase 198+: JsonParser 残りループ個別対応
  - [x] **Phase 200-A: ConditionEnv 拡張インフラ（型と箱のみ）** ✅ (完了: 2025-12-09)
        - **目的**: ConditionEnv を壊さずに関数スコープ "実質定数" を扱う基盤
        - **実施内容**:
          - 200-A-1: CapturedVar / CapturedEnv 型導入 ✅
          - 200-A-2: FunctionScopeCaptureAnalyzer スケルトン ✅
          - 200-A-3: ConditionEnvBuilder v2 入口 ✅
          - 200-A-4: ParamRole enum 追加 ✅
          - 200-A-5: ドキュメント更新 ✅
        - **スコープ**: Infra only / Integration pending
        - **成果**:
          - 型と箱の定義完了 ✅
          - 既存ループの挙動変更なし ✅
          - Phase 200-B への準備完了 ✅
        - **次フェーズ**: Phase 200-B（digits 系ループへの適用）
        - **詳細**: phase200-A-conditionenv-infra.md
 ---
--- a/docs/development/current/main/joinir-architecture-overview.md
+++ b/docs/development/current/main/joinir-architecture-overview.md
@ -53,6 +53,19 @@ JoinIR ラインで守るべきルールを先に書いておくよ：
     BoundaryInjector や InstructionRewriter が `Copy` などで二度書きすることを禁止する。
   - merge ラインでは「ヘッダ PHI dst に対する新しい定義が出てきたら debug モードで panic する」ことで契約違反を早期検出する。
 9. **ParamRole の不変条件（Phase 200-A 追加）**
   - **Condition 役のパラメータは「PHI dst にしてはいけない」**
     - 理由: 条件専用変数はループ内で更新されない（例: `digits` in `_atoi()`）
     - LoopHeaderPhiBuilder は Condition 役の変数に対して header PHI を生成しない
   - **Condition 役のパラメータは「ExitLine の対象にも入れない」**
     - 理由: 条件専用変数はループ外で使われない（ループ内でのみ参照）
     - ExitLineReconnector は Condition 役の変数を exit_bindings から除外
   - **ParamRole の分類**:
     - `LoopParam`: ループ制御変数（例: `i` in `loop(i < len)`）→ header PHI + exit_bindings
     - `Condition`: 条件専用変数（例: `digits` in `digits.indexOf(ch)`）→ condition_bindings のみ
     - `Carrier`: 状態更新変数（例: `sum`, `count`）→ header PHI + exit_bindings
     - `ExprResult`: ループ戻り値 → exit_phi_builder で処理
 ---
 ## 2. 主な箱と責務
@ -262,6 +275,35 @@ JoinIR ラインで守るべきルールを先に書いておくよ：
    - `verify_joinir_contracts()`: merge_joinir_mir_blocks() の最後で全契約を一括チェック。
    - release ビルドでは完全に除去される（`#[cfg(debug_assertions)]`）。
 - **FunctionScopeCaptureAnalyzer / CapturedEnv（Phase 200-A 追加）**
  - ファイル: `src/mir/loop_pattern_detection/function_scope_capture.rs`
  - 責務:
    - 関数スコープで宣言され、ループ内で不変な変数（"実質定数"）を検出。
    - 例: `local digits = "0123456789"` in `JsonParser._atoi()`
    - CapturedVar: `{ name, host_id, is_immutable }`
    - CapturedEnv: 検出された変数のコレクション
  - **Phase 200-A**: 型と空実装のみ（skeleton）。
  - **Phase 200-B**: 実際の検出ロジックを実装予定（AST スキャン + 再代入チェック）。
 - **ParamRole enum（Phase 200-A 追加）**
  - ファイル: `src/mir/join_ir/lowering/inline_boundary_builder.rs`
  - 責務:
    - JoinInlineBoundary のパラメータ役割を明示的に区別。
    - LoopParam / Condition / Carrier / ExprResult の 4 種類。
  - **不変条件**:
    - **Condition 役**: PHI dst にしてはいけない（ループ内で更新されない）。
    - **Condition 役**: ExitLine の対象にも入れない（ループ外で使われない）。
    - 理由: 条件専用変数（例: `digits`）はループ内でのみ参照され、不変。
  - **Phase 200-A**: enum 定義のみ。
  - **Phase 200-B**: ルーティングロジック実装予定（CapturedEnv 統合時）。
 - **ConditionEnvBuilder::build_with_captures（Phase 200-A 追加）**
  - ファイル: `src/mir/builder/control_flow/joinir/patterns/condition_env_builder.rs`
  - 責務:
    - 将来 CapturedEnv を受け取り、ConditionEnv に統合する v2 入口。
  - **Phase 200-A**: 既存実装に委譲する skeleton。
  - **Phase 200-B**: CapturedEnv の変数を condition_bindings に追加する実装予定。
 ### 2.4 expr result ライン（式としての戻り値）
 - **exit_phi_builder**
--- a/docs/development/current/main/phase200-A-conditionenv-infra.md
+++ b/docs/development/current/main/phase200-A-conditionenv-infra.md
@ -0,0 +1,446 @@
 # Phase 200-A: ConditionEnv 拡張インフラ（型と箱のみ）
 **Date**: 2025-12-09
 **Status**: Ready for Implementation
 **Prerequisite**: Phase 197 complete
 ---
 ## 目的
 **ConditionEnv を壊さずに、関数スコープの "実質定数" ローカル（例: `local digits = "0123456789"`）を安全に扱う基盤を作る。**
 **このフェーズでは**:
 - ✅ 型と解析箱だけを導入
 - ✅ 既存ループの挙動は変えない
 - ❌ 具体ループ（`_parse_number` / `_atoi` 等）にはまだ手を出さない
 **設計原則**:
 - ConditionEnv の「芯」（= boundary に載ったものだけを見る）を保持
 - 2-tier 設計（ConditionEnv / LoopBodyLocalEnv）は維持
 - 新しい箱は「関数スコープの実質定数」を捕捉するレイヤーとして追加
 ---
 ## アーキテクチャ概要
 ### 現在の設計（Phase 193 まで）
 ```
 ┌─────────────────────────────────────────────────────────┐
 │ ConditionEnv                                            │
 │   - LoopParam (i, len, etc.)                           │
 │   - OuterLocal (function params: s, pos)               │
 │   - LoopBodyLocal (body-local vars: ch, digit)         │
 └─────────────────────────────────────────────────────────┘
          ↓
 ┌─────────────────────────────────────────────────────────┐
 │ JoinInlineBoundary                                      │
 │   - join_inputs / host_inputs                          │
 │   - condition_bindings                                  │
 │   - exit_bindings                                       │
 └─────────────────────────────────────────────────────────┘
 ```
 **問題**: `digits` のような「関数スコープで宣言され、ループ内で不変なローカル」が捕捉できない
 ### 新設計（Phase 200+）
 ```
 ┌─────────────────────────────────────────────────────────┐
 │ FunctionScopeCaptureAnalyzer                            │
 │   - 関数スコープの "実質定数" を検出                      │
 │   - CapturedEnv を生成                                   │
 └─────────────────────────────────────────────────────────┘
          ↓
 ┌─────────────────────────────────────────────────────────┐
 │ CapturedEnv                                             │
 │   - CapturedVar[] { name, host_id, is_immutable }      │
 └─────────────────────────────────────────────────────────┘
          ↓
 ┌─────────────────────────────────────────────────────────┐
 │ ConditionEnvBuilder v2                                  │
 │   - LoopParam + CapturedEnv → ConditionEnv に合成       │
 └─────────────────────────────────────────────────────────┘
          ↓
 ┌─────────────────────────────────────────────────────────┐
 │ JoinInlineBoundary (拡張)                               │
 │   - ParamRole: LoopParam / Condition / Carrier / Expr  │
 │   - CapturedEnv の変数も condition_bindings に載せる    │
 └─────────────────────────────────────────────────────────┘
 ```
 ---
 ## Task 200-A-1: CapturedVar / CapturedEnv 型の導入
 ### 目標
 関数スコープの「実質定数」を表現する型を定義する。
 ### ファイル
 **新規**: `src/mir/loop_pattern_detection/function_scope_capture.rs`
 ### 実装内容
 ```rust
 //! Phase 200-A: Function scope capture infrastructure
 //!
 //! This module provides types for capturing function-scoped variables
 //! that are effectively immutable within a loop context.
 /// A variable captured from function scope for use in loop conditions.
 ///
 /// Example: `local digits = "0123456789"` in JsonParser._atoi()
 #[derive(Debug, Clone)]
 pub struct CapturedVar {
    /// Variable name (e.g., "digits", "table")
    pub name: String,
    /// MIR ValueId of the original definition
    pub host_id: ValueId,
    /// Whether this variable is never reassigned in the function
    pub is_immutable: bool,
 }
 /// Environment containing function-scoped captured variables.
 ///
 /// Phase 200-A: Type definition only, not yet integrated with ConditionEnv.
 #[derive(Debug, Clone, Default)]
 pub struct CapturedEnv {
    pub vars: Vec<CapturedVar>,
 }
 impl CapturedEnv {
    pub fn new() -> Self {
        Self { vars: Vec::new() }
    }
    pub fn is_empty(&self) -> bool {
        self.vars.is_empty()
    }
    pub fn add_var(&mut self, var: CapturedVar) {
        self.vars.push(var);
    }
    /// Look up a captured variable by name
    pub fn get(&self, name: &str) -> Option<&CapturedVar> {
        self.vars.iter().find(|v| v.name == name)
    }
 }
 ```
 ### テスト
 ```rust
 #[cfg(test)]
 mod tests {
    use super::*;
    use crate::mir::ValueId;
    #[test]
    fn test_captured_env_empty() {
        let env = CapturedEnv::new();
        assert!(env.is_empty());
        assert!(env.get("digits").is_none());
    }
    #[test]
    fn test_captured_env_add_and_get() {
        let mut env = CapturedEnv::new();
        env.add_var(CapturedVar {
            name: "digits".to_string(),
            host_id: ValueId(42),
            is_immutable: true,
        });
        assert!(!env.is_empty());
        let var = env.get("digits").unwrap();
        assert_eq!(var.name, "digits");
        assert_eq!(var.host_id, ValueId(42));
        assert!(var.is_immutable);
    }
 }
 ```
 ### 成果物
 - [x] `CapturedVar` 構造体定義
 - [x] `CapturedEnv` 構造体定義
 - [x] 基本的なアクセサメソッド
 - [x] Unit tests (2件)
 ---
 ## Task 200-A-2: FunctionScopeCaptureAnalyzer スケルトン
 ### 目標
 関数スコープの実質定数を検出する解析関数の枠を作る。
 ### ファイル
 同じ `function_scope_capture.rs` に追加
 ### 実装内容
 ```rust
 /// Analyzes function-scoped variables that can be safely captured for loop conditions.
 ///
 /// # Phase 200-A Status
 /// Currently returns empty CapturedEnv (skeleton implementation).
 /// Actual capture detection will be implemented in Phase 200-B.
 ///
 /// # Future Detection Criteria (Phase 200-B+)
 /// - Variable is declared before the loop
 /// - Variable is never reassigned within the function
 /// - Variable is referenced in loop condition or body
 pub fn analyze_captured_vars(
    _fn_body: &[Stmt],
    _loop_ast: &Stmt,
    _scope: &LoopScopeShape,
 ) -> CapturedEnv {
    // Phase 200-A: Skeleton implementation
    // TODO(Phase 200-B): Implement actual capture detection
    //
    // Detection algorithm:
    // 1. Find all `local` declarations before the loop
    // 2. Check if each is never reassigned (is_immutable = true)
    // 3. Check if referenced in loop condition/body
    // 4. Exclude loop parameters and body-local variables
    CapturedEnv::new()
 }
 ```
 ### 設計メモ
 **Phase 200-B で実装する検出アルゴリズム**:
 1. ループの前にある `local` 宣言を全て収集
 2. 関数全体で再代入されていないかチェック（`is_immutable`）
 3. ループ条件/本体で参照されているかチェック
 4. LoopParam / LoopBodyLocal は除外（既に ConditionEnv で扱われている）
 ### 成果物
 - [x] `analyze_captured_vars` 関数シグネチャ
 - [x] ドキュメントコメント（将来の検出基準を記載）
 - [x] 空実装（Phase 200-B で中身を実装）
 ---
 ## Task 200-A-3: ConditionEnvBuilder v2 入口
 ### 目標
 将来 CapturedEnv を受け取るフックだけ用意する。
 ### ファイル
 `src/mir/join_ir/lowering/condition_env_builder.rs` または既存の ConditionEnv 関連ファイル
 ### 実装内容
 ```rust
 /// Build ConditionEnv with optional captured variables.
 ///
 /// # Phase 200-A Status
 /// Currently ignores `captured` parameter and calls existing implementation.
 /// Integration with CapturedEnv will be implemented in Phase 200-B.
 ///
 /// # Future Behavior (Phase 200-B+)
 /// - Add captured variables to condition_bindings
 /// - Generate Copy instructions for captured vars in entry block
 /// - Track captured vars separately from loop params
 pub fn build_condition_env_with_captures(
    loop_params: &[ParamInfo],
    _captured: &CapturedEnv,
    boundary: &mut JoinInlineBoundaryBuilder,
 ) -> ConditionEnv {
    // Phase 200-A: Delegate to existing implementation
    // TODO(Phase 200-B): Integrate captured vars into ConditionEnv
    //
    // Integration steps:
    // 1. For each captured var, add to boundary.condition_bindings
    // 2. Mark as ParamRole::Condition (not Carrier or LoopParam)
    // 3. Ensure captured vars are NOT included in exit_bindings
    build_condition_env_from_params(loop_params, boundary)
 }
 ```
 ### 成果物
 - [x] `build_condition_env_with_captures` 関数（既存実装に委譲）
 - [x] ドキュメントコメント（Phase 200-B の統合手順を記載）
 ---
 ## Task 200-A-4: ParamRole enum 追加
 ### 目標
 JoinInlineBoundary のパラメータ役割を明示的に区別する。
 ### ファイル
 `src/mir/join_ir/lowering/inline_boundary.rs` または関連ファイル
 ### 実装内容
 ```rust
 /// Role of a parameter in JoinIR lowering.
 ///
 /// # Invariants
 /// - **LoopParam**: Participates in header PHI, updated in loop body
 /// - **Condition**: Used in condition only, NOT in header PHI, NOT in ExitLine
 /// - **Carrier**: Updated in loop body, participates in header PHI and ExitLine
 /// - **ExprResult**: Return value of the loop expression, handled by exit_phi_builder
 #[derive(Debug, Clone, Copy, PartialEq, Eq)]
 pub enum ParamRole {
    /// Loop iteration variable (e.g., `i` in `loop(i < len)`)
    LoopParam,
    /// Condition-only parameter (e.g., `digits` in `digits.indexOf(ch)`)
    /// NOT included in header PHI or ExitLine
    Condition,
    /// State carried across iterations (e.g., `sum`, `count`)
    Carrier,
    /// Expression result returned by the loop
    ExprResult,
 }
 impl JoinInlineBoundaryBuilder {
    /// Add a parameter with explicit role.
    ///
    /// # Phase 200-A Status
    /// Currently stores role but does not use it for routing.
    /// Role-based routing will be implemented in Phase 200-B.
    pub fn add_param_with_role(&mut self, name: &str, host_id: ValueId, role: ParamRole) {
        // Phase 200-A: Store role for future use
        // TODO(Phase 200-B): Route based on role
        //
        // Routing rules:
        // - LoopParam: join_inputs + host_inputs
        // - Condition: condition_bindings only (no PHI, no ExitLine)
        // - Carrier: join_inputs + host_inputs + exit_bindings
        // - ExprResult: handled by exit_phi_builder
        match role {
            ParamRole::LoopParam | ParamRole::Carrier => {
                // Existing behavior: add to join_inputs
                self.add_input(name, host_id);
            }
            ParamRole::Condition => {
                // Phase 200-A: Just log for now
                // TODO(Phase 200-B): Add to condition_bindings without PHI
            }
            ParamRole::ExprResult => {
                // Handled separately by set_expr_result
            }
        }
    }
 }
 ```
 ### 不変条件（joinir-architecture-overview.md に追記）
 ```markdown
 9. **ParamRole の不変条件**
   - **Condition 役のパラメータは「PHI dst にしてはいけない」**
     - 理由: 条件専用変数はループ内で更新されない
     - 例: `digits` は header PHI に参加しない
   - **Condition 役のパラメータは「ExitLine の対象にも入れない」**
     - 理由: 条件専用変数はループ外で使われない（ループ内でのみ参照）
     - 例: `digits.indexOf(ch)` の結果は exit_bindings に載らない
 ```
 ### 成果物
 - [x] `ParamRole` enum 定義
 - [x] `add_param_with_role` メソッド（スケルトン）
 - [x] 不変条件のドキュメント
 ---
 ## Task 200-A-5: ドキュメント更新
 ### 1. joinir-architecture-overview.md
 **Section 2.3 (Boundary / Carrier ライン) に追記**:
 ```markdown
 - **FunctionScopeCaptureAnalyzer / CapturedEnv** (Phase 200-A)
  - ファイル: `src/mir/loop_pattern_detection/function_scope_capture.rs`
  - 責務:
    - 関数スコープで宣言され、ループ内で不変な変数を検出
    - CapturedVar: { name, host_id, is_immutable }
    - CapturedEnv: 検出された変数のコレクション
  - **Phase 200-A**: 型と空実装のみ（中身は Phase 200-B で実装）
 - **ParamRole enum** (Phase 200-A)
  - ファイル: `src/mir/join_ir/lowering/inline_boundary.rs`
  - 責務:
    - JoinInlineBoundary のパラメータ役割を明示的に区別
    - LoopParam / Condition / Carrier / ExprResult
  - **Phase 200-A**: enum 定義のみ（ルーティングは Phase 200-B で実装）
 ```
 **Section 1 (不変条件) に追記**:
 ```markdown
 9. **ParamRole の不変条件**
   - Condition 役のパラメータは「PHI dst にしてはいけない」
   - Condition 役のパラメータは「ExitLine の対象にも入れない」
   - 理由: 条件専用変数はループ内で更新されず、ループ外で使われない
 ```
 ### 2. CURRENT_TASK.md
 **Phase 200-A セクション追加**:
 ```markdown
  - [x] **Phase 200-A: ConditionEnv 拡張インフラ（型と箱のみ）** ✅ (完了: 2025-12-XX)
        - **目的**: ConditionEnv を壊さずに関数スコープ "実質定数" を扱う基盤
        - **実装内容**:
          - 200-A-1: CapturedVar / CapturedEnv 型導入 ✅
          - 200-A-2: FunctionScopeCaptureAnalyzer スケルトン ✅
          - 200-A-3: ConditionEnvBuilder v2 入口 ✅
          - 200-A-4: ParamRole enum 追加 ✅
          - 200-A-5: ドキュメント更新 ✅
        - **スコープ**: Infra only / Integration pending
        - **成果**:
          - 型と箱の定義完了 ✅
          - 既存ループの挙動変更なし ✅
          - Phase 200-B への準備完了 ✅
        - **次フェーズ**: Phase 200-B（digits 系ループへの適用）
 ```
 ---
 ## 成功基準
 - [x] `CapturedVar` / `CapturedEnv` 型が定義されている
 - [x] `analyze_captured_vars` 関数スケルトンが存在する
 - [x] `build_condition_env_with_captures` 入口が存在する
 - [x] `ParamRole` enum が定義されている
 - [x] 既存テストが全て PASS（退行なし）
 - [x] ドキュメント更新（overview + CURRENT_TASK）
 ---
 ## 設計原則（Phase 200-A）
 1. **Infra only**: 型と箱の定義のみ、具体ループへの適用は Phase 200-B
 2. **既存挙動維持**: 現在のループは全く同じように動作する
 3. **箱化原則**: 新しい責務は新しい箱（FunctionScopeCaptureAnalyzer）に集約
 4. **ドキュメント駆動**: 将来の実装方針をコメントとして残す
 ---
 ## 関連ファイル
 ### 新規作成
 - `src/mir/loop_pattern_detection/function_scope_capture.rs`
 ### 修正対象
 - `src/mir/loop_pattern_detection/mod.rs`（モジュール追加）
 - `src/mir/join_ir/lowering/condition_env_builder.rs`（v2 入口）
 - `src/mir/join_ir/lowering/inline_boundary.rs`（ParamRole）
 ### ドキュメント
 - `docs/development/current/main/joinir-architecture-overview.md`
 - `CURRENT_TASK.md`
--- a/src/mir/builder/control_flow/joinir/patterns/condition_env_builder.rs
+++ b/src/mir/builder/control_flow/joinir/patterns/condition_env_builder.rs
@ -27,6 +27,8 @@
 use crate::ast::ASTNode;
 use crate::mir::join_ir::lowering::condition_env::{ConditionBinding, ConditionEnv};
 use crate::mir::join_ir::lowering::condition_to_joinir::extract_condition_variables;
 use crate::mir::join_ir::lowering::inline_boundary_builder::JoinInlineBoundaryBuilder;
 use crate::mir::loop_pattern_detection::function_scope_capture::CapturedEnv;
 use crate::mir::ValueId;
 use std::collections::BTreeMap;
@ -122,6 +124,64 @@ impl ConditionEnvBuilder {
        env.insert(loop_var_name.to_string(), ValueId(0));
        env
    }
    /// Build ConditionEnv with optional captured variables (Phase 200-A v2 entry point)
    ///
    /// # Phase 200-A Status
    ///
    /// Currently ignores `captured` parameter and delegates to existing implementation.
    /// Integration with CapturedEnv will be implemented in Phase 200-B.
    ///
    /// # Future Behavior (Phase 200-B+)
    ///
    /// - Add captured variables to ConditionEnv
    /// - Generate condition_bindings for captured vars in boundary
    /// - Track captured vars separately from loop params
    /// - Ensure captured vars do NOT participate in header PHI or exit_bindings
    ///
    /// # Arguments
    ///
    /// * `loop_var_name` - Loop parameter name (e.g., "i", "pos")
    /// * `_captured` - Function-scoped captured variables (Phase 200-B+)
    /// * `_boundary` - Boundary builder for adding condition_bindings (Phase 200-B+)
    ///
    /// # Returns
    ///
    /// ConditionEnv with loop parameter mapping (Phase 200-A: same as build_loop_param_only)
    ///
    /// # Example (Future Phase 200-B)
    ///
    /// ```ignore
    /// let captured = analyze_captured_vars(fn_body, loop_ast, scope);
    /// let mut boundary = JoinInlineBoundaryBuilder::new();
    /// let env = ConditionEnvBuilder::build_with_captures(
    ///     "pos",
    ///     &captured,  // Contains "digits" with host ValueId(42)
    ///     &mut boundary,
    /// );
    /// // Phase 200-B: env will contain "pos" → ValueId(0), "digits" → ValueId(1)
    /// // Phase 200-B: boundary.condition_bindings will have entry for "digits"
    /// ```
    pub fn build_with_captures(
        loop_var_name: &str,
        _captured: &CapturedEnv,
        _boundary: &mut JoinInlineBoundaryBuilder,
    ) -> ConditionEnv {
        // Phase 200-A: Delegate to existing implementation
        // TODO(Phase 200-B): Integrate captured vars into ConditionEnv
        //
        // Integration steps:
        // 1. Start with loop parameter in env (ValueId(0))
        // 2. For each captured var:
        //    a. Allocate JoinIR-local ValueId (starting from 1)
        //    b. Add to ConditionEnv (var.name → join_id)
        //    c. Add to boundary.condition_bindings (host_id ↔ join_id)
        //    d. Mark as ParamRole::Condition (not Carrier or LoopParam)
        // 3. Ensure captured vars are NOT in exit_bindings (condition-only)
        // 4. Return populated ConditionEnv
        Self::build_loop_param_only(loop_var_name)
    }
 }
 #[cfg(test)]
--- a/src/mir/join_ir/lowering/inline_boundary_builder.rs
+++ b/src/mir/join_ir/lowering/inline_boundary_builder.rs
@ -28,6 +28,50 @@ use crate::mir::ValueId;
 use super::inline_boundary::{JoinInlineBoundary, LoopExitBinding};
 use super::condition_to_joinir::ConditionBinding;
 /// Role of a parameter in JoinIR lowering (Phase 200-A)
 ///
 /// This enum explicitly classifies parameters to ensure correct routing
 /// during JoinIR → MIR lowering and boundary construction.
 ///
 /// # Invariants
 ///
 /// - **LoopParam**: Participates in header PHI, updated in loop body
 ///   - Example: `i` in `loop(i < len)` - iteration variable
 ///   - Routing: join_inputs + host_inputs + header PHI + exit_bindings
 ///
 /// - **Condition**: Used in condition only, NOT in header PHI, NOT in ExitLine
 ///   - Example: `digits` in `digits.indexOf(ch)` - function-scoped constant
 ///   - Routing: condition_bindings ONLY (no PHI, no exit_bindings)
 ///   - Rationale: Condition-only vars are immutable and not updated in loop
 ///
 /// - **Carrier**: Updated in loop body, participates in header PHI and ExitLine
 ///   - Example: `sum`, `count` in accumulation loops
 ///   - Routing: join_inputs + host_inputs + header PHI + exit_bindings
 ///
 /// - **ExprResult**: Return value of the loop expression
 ///   - Example: Loop result in `return loop(...)`
 ///   - Routing: Handled by exit_phi_builder (set_expr_result)
 ///
 /// # Phase 200-A Status
 ///
 /// Enum is defined but not yet used for routing. Routing implementation
 /// will be added in Phase 200-B when CapturedEnv integration is complete.
 #[derive(Debug, Clone, Copy, PartialEq, Eq)]
 pub enum ParamRole {
    /// Loop iteration variable (e.g., `i` in `loop(i < len)`)
    LoopParam,
    /// Condition-only parameter (e.g., `digits` in `digits.indexOf(ch)`)
    /// NOT included in header PHI or ExitLine
    Condition,
    /// State carried across iterations (e.g., `sum`, `count`)
    Carrier,
    /// Expression result returned by the loop
    ExprResult,
 }
 /// Builder for constructing JoinInlineBoundary objects
 ///
 /// Provides a fluent API to set boundary fields without direct field manipulation.
@ -128,6 +172,70 @@ impl JoinInlineBoundaryBuilder {
    pub fn build(self) -> JoinInlineBoundary {
        self.boundary
    }
    /// Add a parameter with explicit role (Phase 200-A)
    ///
    /// This method allows adding parameters with explicit role classification,
    /// ensuring correct routing during JoinIR → MIR lowering.
    ///
    /// # Phase 200-A Status
    ///
    /// Currently stores parameters based on role but does not use role for advanced routing.
    /// Full role-based routing will be implemented in Phase 200-B.
    ///
    /// # Arguments
    ///
    /// * `name` - Variable name (e.g., "i", "digits", "sum")
    /// * `host_id` - Host function's ValueId for this variable
    /// * `role` - Parameter role (LoopParam / Condition / Carrier / ExprResult)
    ///
    /// # Routing Rules (Phase 200-B+)
    ///
    /// - **LoopParam**: add_input (join_inputs + host_inputs)
    /// - **Condition**: add to condition_bindings (no PHI, no exit_bindings)
    /// - **Carrier**: add_input + exit_bindings
    /// - **ExprResult**: set_expr_result (handled separately)
    ///
    /// # Example (Future Phase 200-B)
    ///
    /// ```ignore
    /// builder.add_param_with_role("i", ValueId(100), ParamRole::LoopParam);
    /// builder.add_param_with_role("digits", ValueId(42), ParamRole::Condition);
    /// builder.add_param_with_role("sum", ValueId(101), ParamRole::Carrier);
    /// ```
    pub fn add_param_with_role(&mut self, _name: &str, host_id: ValueId, role: ParamRole) {
        // Phase 200-A: Basic routing only
        // TODO(Phase 200-B): Implement full role-based routing
        //
        // Routing implementation:
        // - LoopParam: join_inputs + host_inputs
        // - Condition: condition_bindings (with JoinIR-local ValueId allocation)
        // - Carrier: join_inputs + host_inputs + exit_bindings
        // - ExprResult: Handled by set_expr_result
        match role {
            ParamRole::LoopParam | ParamRole::Carrier => {
                // Existing behavior: add to join_inputs
                // Note: In Phase 200-A, we don't have a simple add_input method
                // that takes a name. This is a skeleton implementation.
                // In Phase 200-B, we'll need to allocate JoinIR-local ValueIds.
                let join_id = ValueId(self.boundary.join_inputs.len() as u32);
                self.boundary.join_inputs.push(join_id);
                self.boundary.host_inputs.push(host_id);
            }
            ParamRole::Condition => {
                // Phase 200-A: Log only
                // TODO(Phase 200-B): Add to condition_bindings without PHI
                // 1. Allocate JoinIR-local ValueId
                // 2. Create ConditionBinding { name, host_id, join_id }
                // 3. Add to self.boundary.condition_bindings
            }
            ParamRole::ExprResult => {
                // Handled separately by set_expr_result
                // No action needed here
            }
        }
    }
 }
 impl Default for JoinInlineBoundaryBuilder {
@ -255,4 +363,40 @@ mod tests {
        assert_eq!(boundary.join_inputs.len(), 3);
        assert_eq!(boundary.host_inputs.len(), 3);
    }
    // Phase 200-A: ParamRole tests
    #[test]
    fn test_param_role_loop_param() {
        let mut builder = JoinInlineBoundaryBuilder::new();
        builder.add_param_with_role("i", ValueId(100), ParamRole::LoopParam);
        let boundary = builder.build();
        assert_eq!(boundary.join_inputs.len(), 1);
        assert_eq!(boundary.host_inputs.len(), 1);
        assert_eq!(boundary.host_inputs[0], ValueId(100));
    }
    #[test]
    fn test_param_role_condition() {
        let mut builder = JoinInlineBoundaryBuilder::new();
        // Phase 200-A: Condition role is logged but not yet routed
        builder.add_param_with_role("digits", ValueId(42), ParamRole::Condition);
        let boundary = builder.build();
        // Phase 200-A: No action for Condition role yet
        // Phase 200-B: This will add to condition_bindings
        assert_eq!(boundary.join_inputs.len(), 0);
        assert_eq!(boundary.condition_bindings.len(), 0);
    }
    #[test]
    fn test_param_role_carrier() {
        let mut builder = JoinInlineBoundaryBuilder::new();
        builder.add_param_with_role("sum", ValueId(101), ParamRole::Carrier);
        let boundary = builder.build();
        assert_eq!(boundary.join_inputs.len(), 1);
        assert_eq!(boundary.host_inputs.len(), 1);
        assert_eq!(boundary.host_inputs[0], ValueId(101));
    }
 }
--- a/src/mir/loop_pattern_detection/function_scope_capture.rs
+++ b/src/mir/loop_pattern_detection/function_scope_capture.rs
@ -0,0 +1,203 @@
 //! Phase 200-A: Function scope capture infrastructure
 //!
 //! This module provides types for capturing function-scoped variables
 //! that are effectively immutable within a loop context.
 //!
 //! # Example
 //!
 //! For a function like JsonParser._atoi():
 //!
 //! ```nyash
 //! method _atoi(s, pos, len) {
 //!     local digits = "0123456789"  // <-- Captured variable
 //!     local value = 0
 //!     loop(pos < len) {
 //!         local ch = s.charAt(pos)
 //!         local digit = digits.indexOf(ch)  // Uses captured 'digits'
 //!         if (digit < 0) { break }
 //!         value = value * 10 + digit
 //!         pos = pos + 1
 //!     }
 //!     return value
 //! }
 //! ```
 //!
 //! Here, `digits` is:
 //! - Declared in function scope (before the loop)
 //! - Never reassigned (effectively immutable)
 //! - Referenced in loop body (digits.indexOf(ch))
 //!
 //! Phase 200-A creates the infrastructure to capture such variables.
 //! Phase 200-B will implement the actual detection logic.
 use crate::mir::ValueId;
 use crate::mir::join_ir::lowering::loop_scope_shape::LoopScopeShape;
 use crate::ast::ASTNode;
 /// A variable captured from function scope for use in loop conditions/body.
 ///
 /// Example: `local digits = "0123456789"` in JsonParser._atoi()
 ///
 /// # Invariants
 ///
 /// - `name`: Variable name as it appears in the source code
 /// - `host_id`: MIR ValueId of the original definition in the host function
 /// - `is_immutable`: True if the variable is never reassigned in the function
 #[derive(Debug, Clone)]
 pub struct CapturedVar {
    /// Variable name (e.g., "digits", "table")
    pub name: String,
    /// MIR ValueId of the original definition in the host function
    pub host_id: ValueId,
    /// Whether this variable is never reassigned in the function
    ///
    /// Phase 200-B will implement assignment analysis to determine this.
    /// For now, this is always set to true as a conservative default.
    pub is_immutable: bool,
 }
 /// Environment containing function-scoped captured variables.
 ///
 /// Phase 200-A: Type definition only, not yet integrated with ConditionEnv.
 /// Phase 200-B: Will be populated by FunctionScopeCaptureAnalyzer and
 ///               integrated into ConditionEnv via ConditionEnvBuilder v2.
 #[derive(Debug, Clone, Default)]
 pub struct CapturedEnv {
    /// List of captured variables
    pub vars: Vec<CapturedVar>,
 }
 impl CapturedEnv {
    /// Create a new empty environment
    pub fn new() -> Self {
        Self { vars: Vec::new() }
    }
    /// Check if the environment is empty
    pub fn is_empty(&self) -> bool {
        self.vars.is_empty()
    }
    /// Add a captured variable to the environment
    pub fn add_var(&mut self, var: CapturedVar) {
        self.vars.push(var);
    }
    /// Look up a captured variable by name
    ///
    /// Returns `Some(&CapturedVar)` if found, `None` otherwise.
    pub fn get(&self, name: &str) -> Option<&CapturedVar> {
        self.vars.iter().find(|v| v.name == name)
    }
 }
 /// Analyzes function-scoped variables that can be safely captured for loop conditions/body.
 ///
 /// # Phase 200-A Status
 ///
 /// Currently returns empty CapturedEnv (skeleton implementation).
 /// Actual capture detection will be implemented in Phase 200-B.
 ///
 /// # Future Detection Criteria (Phase 200-B+)
 ///
 /// A variable is captured if ALL of the following conditions are met:
 ///
 /// 1. **Declared before the loop**: Variable must be declared in function scope before the loop
 /// 2. **Never reassigned**: Variable is never reassigned within the function (is_immutable = true)
 /// 3. **Referenced in loop**: Variable is referenced in loop condition or body
 /// 4. **Not a loop parameter**: Variable is not the loop iteration variable
 /// 5. **Not a body-local**: Variable is not declared inside the loop body
 ///
 /// # Example
 ///
 /// ```nyash
 /// method _atoi(s, pos, len) {
 ///     local digits = "0123456789"  // ✅ Captured (declared before loop, never reassigned)
 ///     local value = 0               // ❌ Not captured (reassigned in loop body)
 ///     loop(pos < len) {
 ///         local ch = s.charAt(pos)  // ❌ Not captured (body-local)
 ///         local digit = digits.indexOf(ch)
 ///         value = value * 10 + digit
 ///         pos = pos + 1
 ///     }
 /// }
 /// ```
 ///
 /// # Arguments
 ///
 /// * `_fn_body` - AST nodes of the function body (for analysis)
 /// * `_loop_ast` - AST node of the loop statement
 /// * `_scope` - LoopScopeShape (for excluding loop params and body-locals)
 ///
 /// # Returns
 ///
 /// `CapturedEnv` containing all captured variables (empty in Phase 200-A)
 pub fn analyze_captured_vars(
    _fn_body: &[ASTNode],
    _loop_ast: &ASTNode,
    _scope: &LoopScopeShape,
 ) -> CapturedEnv {
    // Phase 200-A: Skeleton implementation
    // TODO(Phase 200-B): Implement actual capture detection
    //
    // Detection algorithm:
    // 1. Find all `local` declarations before the loop in fn_body
    // 2. For each declaration:
    //    a. Check if it's never reassigned in the function (is_immutable = true)
    //    b. Check if it's referenced in loop condition or body
    //    c. Exclude if it's in scope.pinned, scope.carriers, or scope.body_locals
    // 3. Collect matching variables into CapturedEnv
    // 4. Return the populated environment
    CapturedEnv::new()
 }
 #[cfg(test)]
 mod tests {
    use super::*;
    #[test]
    fn test_captured_env_empty() {
        let env = CapturedEnv::new();
        assert!(env.is_empty());
        assert!(env.get("digits").is_none());
    }
    #[test]
    fn test_captured_env_add_and_get() {
        let mut env = CapturedEnv::new();
        env.add_var(CapturedVar {
            name: "digits".to_string(),
            host_id: ValueId(42),
            is_immutable: true,
        });
        assert!(!env.is_empty());
        let var = env.get("digits").unwrap();
        assert_eq!(var.name, "digits");
        assert_eq!(var.host_id, ValueId(42));
        assert!(var.is_immutable);
    }
    #[test]
    fn test_captured_env_multiple_vars() {
        let mut env = CapturedEnv::new();
        env.add_var(CapturedVar {
            name: "digits".to_string(),
            host_id: ValueId(42),
            is_immutable: true,
        });
        env.add_var(CapturedVar {
            name: "table".to_string(),
            host_id: ValueId(100),
            is_immutable: true,
        });
        assert_eq!(env.vars.len(), 2);
        assert!(env.get("digits").is_some());
        assert!(env.get("table").is_some());
        assert!(env.get("nonexistent").is_none());
    }
 }
--- a/src/mir/loop_pattern_detection/mod.rs
+++ b/src/mir/loop_pattern_detection/mod.rs
@ -780,3 +780,6 @@ pub use trim_loop_helper::TrimLoopHelper;
 // Phase 33-23: Break Condition Analysis (Stage 2, Issue 6)
 pub mod break_condition_analyzer;
 // Phase 200-A: Function Scope Capture Infrastructure
 pub mod function_scope_capture;