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cb236b7f5ab788d774d8c23f95b13830d056e0df
hakorune/tests/mir_instruction_unit.rs

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refactor: 大規模ファイル分割とプラグインリファクタリング ## 🎯 プラグイン整理 - ✅ **nyash-json-plugin**: プロバイダー抽象化、NodeRep統一 - ✅ **nyash-string-plugin**: TLVヘルパー整理 - ✅ **nyash-net-plugin**: HTTPヘルパー分離、ソケット管理改善 - ✅ **nyash-counter-plugin/fixture-plugin**: 基本構造整理 ## 📂 mir_interpreter分割 - ✅ **mir_interpreter.rs → mir_interpreter/ディレクトリ** - mod.rs: メイン構造体定義 - execution.rs: 実行エンジン - memory.rs: メモリ管理 - instructions/: 命令別実装 ## 🔧 その他の改善 - テストファイル群の最適化 - LLVMコンパイラのメイン関数整理 - 不要なインポート削除 1000行超のファイルを適切なモジュール構造に分割完了! 🤖 Generated with [Claude Code](https://claude.ai/code) Co-Authored-By: Claude <noreply@anthropic.com>
2025-09-25 01:09:48 +09:00
use nyash_rust::mir::{BinaryOp, ConstValue, Effect, EffectMask, MirInstruction, ValueId};
pyvm: split op handlers into ops_core/ops_box/ops_ctrl; add ops_flow + intrinsic; delegate vm.py without behavior change net-plugin: modularize constants (consts.rs) and sockets (sockets.rs); remove legacy commented socket code; fix unused imports mir: move instruction unit tests to tests/mir_instruction_unit.rs (file lean-up); no semantic changes runner/pyvm: ensure using pre-strip; misc docs updates Build: cargo build ok; legacy cfg warnings remain as before
2025-09-21 08:53:00 +09:00
#[test]
fn test_const_instruction() {
let dst = ValueId::new(0);
let inst = MirInstruction::Const {
dst,
value: ConstValue::Integer(42),
};
assert_eq!(inst.dst_value(), Some(dst));
assert!(inst.used_values().is_empty());
assert!(inst.effects().is_pure());
}
#[test]
fn test_binop_instruction() {
let dst = ValueId::new(0);
let lhs = ValueId::new(1);
let rhs = ValueId::new(2);
let inst = MirInstruction::BinOp {
dst,
op: BinaryOp::Add,
lhs,
rhs,
};
assert_eq!(inst.dst_value(), Some(dst));
assert_eq!(inst.used_values(), vec![lhs, rhs]);
assert!(inst.effects().is_pure());
}
#[test]
fn test_call_instruction() {
let dst = ValueId::new(0);
let func = ValueId::new(1);
let arg1 = ValueId::new(2);
let arg2 = ValueId::new(3);
let inst = MirInstruction::Call {
dst: Some(dst),
func,
args: vec![arg1, arg2],
effects: EffectMask::IO,
};
assert_eq!(inst.dst_value(), Some(dst));
assert_eq!(inst.used_values(), vec![func, arg1, arg2]);
assert_eq!(inst.effects(), EffectMask::IO);
}
#[test]
fn test_ref_new_instruction() {
let dst = ValueId::new(0);
let box_val = ValueId::new(1);
let inst = MirInstruction::RefNew { dst, box_val };
assert_eq!(inst.dst_value(), Some(dst));
assert_eq!(inst.used_values(), vec![box_val]);
assert!(inst.effects().is_pure());
}
#[test]
fn test_ref_get_instruction() {
let dst = ValueId::new(0);
let reference = ValueId::new(1);
let field = "name".to_string();
let inst = MirInstruction::RefGet {
dst,
reference,
field,
};
assert_eq!(inst.dst_value(), Some(dst));
assert_eq!(inst.used_values(), vec![reference]);
assert!(!inst.effects().is_pure());
assert!(inst.effects().contains(Effect::ReadHeap));
}
#[test]
fn test_ref_set_instruction() {
let reference = ValueId::new(0);
let field = "value".to_string();
let value = ValueId::new(1);
let inst = MirInstruction::RefSet {
reference,
field,
value,
};
assert_eq!(inst.dst_value(), None);
assert_eq!(inst.used_values(), vec![reference, value]);
assert!(!inst.effects().is_pure());
assert!(inst.effects().contains(Effect::WriteHeap));
}
#[test]
fn test_weak_new_instruction() {
let dst = ValueId::new(0);
let box_val = ValueId::new(1);
let inst = MirInstruction::WeakNew { dst, box_val };
assert_eq!(inst.dst_value(), Some(dst));
assert_eq!(inst.used_values(), vec![box_val]);
assert!(inst.effects().is_pure());
}
#[test]
fn test_weak_load_instruction() {
let dst = ValueId::new(0);
let weak_ref = ValueId::new(1);
let inst = MirInstruction::WeakLoad { dst, weak_ref };
assert_eq!(inst.dst_value(), Some(dst));
assert_eq!(inst.used_values(), vec![weak_ref]);
assert!(!inst.effects().is_pure());
assert!(inst.effects().contains(Effect::ReadHeap));
}
#[test]
fn test_barrier_instructions() {
let ptr = ValueId::new(0);
let read_barrier = MirInstruction::BarrierRead { ptr };
assert_eq!(read_barrier.dst_value(), None);
assert_eq!(read_barrier.used_values(), vec![ptr]);
assert!(read_barrier.effects().contains(Effect::Barrier));
assert!(read_barrier.effects().contains(Effect::ReadHeap));
let write_barrier = MirInstruction::BarrierWrite { ptr };
assert_eq!(write_barrier.dst_value(), None);
assert_eq!(write_barrier.used_values(), vec![ptr]);
assert!(write_barrier.effects().contains(Effect::Barrier));
assert!(write_barrier.effects().contains(Effect::WriteHeap));
}
#[test]
fn test_extern_call_instruction() {
let dst = ValueId::new(0);
let arg1 = ValueId::new(1);
let arg2 = ValueId::new(2);
let inst = MirInstruction::ExternCall {
dst: Some(dst),
iface_name: "env.console".to_string(),
method_name: "log".to_string(),
args: vec![arg1, arg2],
effects: EffectMask::IO,
};
assert_eq!(inst.dst_value(), Some(dst));
assert_eq!(inst.used_values(), vec![arg1, arg2]);
assert_eq!(inst.effects(), EffectMask::IO);
let void_inst = MirInstruction::ExternCall {
dst: None,
iface_name: "env.canvas".to_string(),
method_name: "fillRect".to_string(),
args: vec![arg1],
effects: EffectMask::IO,
};
assert_eq!(void_inst.dst_value(), None);
assert_eq!(void_inst.used_values(), vec![arg1]);
}
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