f9d100ce01
Phase 25.1 完了成果: - ✅ LoopForm v2 テスト・ドキュメント・コメント完備 - 4ケース(A/B/C/D)完全テストカバレッジ - 最小再現ケース作成(SSAバグ調査用) - SSOT文書作成(loopform_ssot.md) - 全ソースに [LoopForm] コメントタグ追加 - ✅ Stage-1 CLI デバッグ環境構築 - stage1_cli.hako 実装 - stage1_bridge.rs ブリッジ実装 - デバッグツール作成(stage1_debug.sh/stage1_minimal.sh) - アーキテクチャ改善提案文書 - ✅ 環境変数削減計画策定 - 25変数の完全調査・分類 - 6段階削減ロードマップ(25→5、80%削減) - 即時削除可能変数特定(NYASH_CONFIG/NYASH_DEBUG) Phase 26-D からの累積変更: - PHI実装改善(ExitPhiBuilder/HeaderPhiBuilder等) - MIRビルダーリファクタリング - 型伝播・最適化パス改善 - その他約300ファイルの累積変更 🎯 技術的成果: - SSAバグ根本原因特定(条件分岐内loop変数変更) - Region+next_iパターン適用完了(UsingCollectorBox等) - LoopFormパターン文書化・テスト化完了 - セルフホスティング基盤強化 Co-Authored-By: Claude <noreply@anthropic.com> Co-Authored-By: ChatGPT <noreply@openai.com> Co-Authored-By: Task Assistant <task@anthropic.com>
154 lines
4.5 KiB
Rust
154 lines
4.5 KiB
Rust
use nyash_rust::mir::{BinaryOp, ConstValue, Effect, EffectMask, MirInstruction, ValueId};
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#[test]
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fn test_const_instruction() {
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let dst = ValueId::new(0);
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let inst = MirInstruction::Const {
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dst,
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value: ConstValue::Integer(42),
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};
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assert_eq!(inst.dst_value(), Some(dst));
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assert!(inst.used_values().is_empty());
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assert!(inst.effects().is_pure());
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}
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#[test]
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fn test_binop_instruction() {
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let dst = ValueId::new(0);
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let lhs = ValueId::new(1);
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let rhs = ValueId::new(2);
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let inst = MirInstruction::BinOp {
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dst,
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op: BinaryOp::Add,
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lhs,
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rhs,
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};
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assert_eq!(inst.dst_value(), Some(dst));
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assert_eq!(inst.used_values(), vec![lhs, rhs]);
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assert!(inst.effects().is_pure());
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}
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#[test]
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fn test_call_instruction() {
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let dst = ValueId::new(0);
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let func = ValueId::new(1);
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let arg1 = ValueId::new(2);
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let arg2 = ValueId::new(3);
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let inst = MirInstruction::Call {
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dst: Some(dst),
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func,
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callee: None, // Legacy mode for test
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args: vec![arg1, arg2],
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effects: EffectMask::IO,
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};
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assert_eq!(inst.dst_value(), Some(dst));
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assert_eq!(inst.used_values(), vec![func, arg1, arg2]);
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assert_eq!(inst.effects(), EffectMask::IO);
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}
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#[test]
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fn test_ref_new_instruction() {
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let dst = ValueId::new(0);
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let box_val = ValueId::new(1);
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let inst = MirInstruction::RefNew { dst, box_val };
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assert_eq!(inst.dst_value(), Some(dst));
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assert_eq!(inst.used_values(), vec![box_val]);
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assert!(inst.effects().is_pure());
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}
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#[test]
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fn test_ref_get_instruction() {
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let dst = ValueId::new(0);
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let reference = ValueId::new(1);
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let field = "name".to_string();
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let inst = MirInstruction::RefGet {
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dst,
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reference,
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field,
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};
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assert_eq!(inst.dst_value(), Some(dst));
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assert_eq!(inst.used_values(), vec![reference]);
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assert!(!inst.effects().is_pure());
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assert!(inst.effects().contains(Effect::ReadHeap));
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}
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#[test]
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fn test_ref_set_instruction() {
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let reference = ValueId::new(0);
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let field = "value".to_string();
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let value = ValueId::new(1);
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let inst = MirInstruction::RefSet {
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reference,
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field,
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value,
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};
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assert_eq!(inst.dst_value(), None);
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assert_eq!(inst.used_values(), vec![reference, value]);
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assert!(!inst.effects().is_pure());
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assert!(inst.effects().contains(Effect::WriteHeap));
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}
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#[test]
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fn test_weak_new_instruction() {
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let dst = ValueId::new(0);
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let box_val = ValueId::new(1);
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let inst = MirInstruction::WeakNew { dst, box_val };
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assert_eq!(inst.dst_value(), Some(dst));
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assert_eq!(inst.used_values(), vec![box_val]);
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assert!(inst.effects().is_pure());
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}
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#[test]
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fn test_weak_load_instruction() {
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let dst = ValueId::new(0);
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let weak_ref = ValueId::new(1);
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let inst = MirInstruction::WeakLoad { dst, weak_ref };
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assert_eq!(inst.dst_value(), Some(dst));
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assert_eq!(inst.used_values(), vec![weak_ref]);
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assert!(!inst.effects().is_pure());
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assert!(inst.effects().contains(Effect::ReadHeap));
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}
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#[test]
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fn test_barrier_instructions() {
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let ptr = ValueId::new(0);
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let read_barrier = MirInstruction::BarrierRead { ptr };
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assert_eq!(read_barrier.dst_value(), None);
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assert_eq!(read_barrier.used_values(), vec![ptr]);
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assert!(read_barrier.effects().contains(Effect::Barrier));
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assert!(read_barrier.effects().contains(Effect::ReadHeap));
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let write_barrier = MirInstruction::BarrierWrite { ptr };
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assert_eq!(write_barrier.dst_value(), None);
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assert_eq!(write_barrier.used_values(), vec![ptr]);
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assert!(write_barrier.effects().contains(Effect::Barrier));
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assert!(write_barrier.effects().contains(Effect::WriteHeap));
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}
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#[test]
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fn test_extern_call_instruction() {
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let dst = ValueId::new(0);
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let arg1 = ValueId::new(1);
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let arg2 = ValueId::new(2);
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let inst = MirInstruction::ExternCall {
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dst: Some(dst),
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iface_name: "env.console".to_string(),
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method_name: "log".to_string(),
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args: vec![arg1, arg2],
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effects: EffectMask::IO,
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};
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assert_eq!(inst.dst_value(), Some(dst));
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assert_eq!(inst.used_values(), vec![arg1, arg2]);
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assert_eq!(inst.effects(), EffectMask::IO);
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let void_inst = MirInstruction::ExternCall {
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dst: None,
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iface_name: "env.canvas".to_string(),
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method_name: "fillRect".to_string(),
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args: vec![arg1],
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effects: EffectMask::IO,
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};
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assert_eq!(void_inst.dst_value(), None);
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assert_eq!(void_inst.used_values(), vec![arg1]);
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}
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