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hakorune/src/interpreter/expressions/calls.rs

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refactor(interpreter): Step 1 - Setup expressions module structure - Move expressions.rs to expressions/mod.rs - Create empty module files: operators.rs, calls.rs, access.rs, builtins.rs - Add module declarations to mod.rs - Build passes successfully Next: Step 2 - Extract operator functions
2025-08-16 12:41:19 +09:00
/*!
* Method calls and from delegation calls
*/
feat(refactor): Extract calls module from expressions (Step 3) - Move method call and from delegation call logic to dedicated calls.rs module - Extract execute_method_call, execute_from_call, and execute_from_parent_constructor (515+ lines moved) - Fix import issues with ResultBox type resolution - Remove duplicate functions from mod.rs - Build passes successfully with comprehensive method call handling
2025-08-16 12:58:42 +09:00
use super::*;
use crate::ast::ASTNode;
use crate::box_trait::{NyashBox, StringBox, IntegerBox, BoolBox, VoidBox, SharedNyashBox};
use crate::boxes::{ArrayBox, FloatBox, ConsoleBox, MapBox, FutureBox};
use crate::boxes::{BufferBox, JSONBox, HttpClientBox, StreamBox, RegexBox, IntentBox, SocketBox};
use crate::boxes::{HTTPServerBox, HTTPRequestBox, HTTPResponseBox, MathBox, TimeBox, DateTimeBox};
use crate::boxes::{RandomBox, SoundBox, DebugBox};
use crate::{InstanceBox, ChannelBox};
use crate::interpreter::core::{NyashInterpreter, RuntimeError};
use crate::interpreter::finalization;
use std::sync::Arc;
impl NyashInterpreter {
/// メソッド呼び出しを実行 - Method call processing
pub(super) fn execute_method_call(&mut self, object: &ASTNode, method: &str, arguments: &[ASTNode])
-> Result<Box<dyn NyashBox>, RuntimeError> {
// 🔥 static関数のチェック
if let ASTNode::Variable { name, .. } = object {
// static関数が存在するかチェック
let static_func = {
let static_funcs = self.shared.static_functions.read().unwrap();
if let Some(box_statics) = static_funcs.get(name) {
if let Some(func) = box_statics.get(method) {
Some(func.clone())
} else {
None
}
} else {
None
}
};
if let Some(static_func) = static_func {
// static関数を実行
if let ASTNode::FunctionDeclaration { params, body, .. } = static_func {
// 引数を評価
let mut arg_values = Vec::new();
for arg in arguments {
arg_values.push(self.execute_expression(arg)?);
}
// パラメータ数チェック
if arg_values.len() != params.len() {
return Err(RuntimeError::InvalidOperation {
message: format!("Static method {}.{} expects {} arguments, got {}",
name, method, params.len(), arg_values.len()),
});
}
// 🌍 local変数スタックを保存・クリアstatic関数呼び出し開始
let saved_locals = self.save_local_vars();
self.local_vars.clear();
// 📤 outbox変数スタックも保存・クリアstatic関数専用
let saved_outbox = self.save_outbox_vars();
self.outbox_vars.clear();
// 引数をlocal変数として設定
for (param, value) in params.iter().zip(arg_values.iter()) {
self.declare_local_variable(param, value.clone_box());
}
// static関数の本体を実行
let mut result = Box::new(VoidBox::new()) as Box<dyn NyashBox>;
for statement in &body {
result = self.execute_statement(statement)?;
// return文チェック
if let super::ControlFlow::Return(return_val) = &self.control_flow {
result = return_val.clone_box();
self.control_flow = super::ControlFlow::None;
break;
}
}
// local変数スタックを復元
self.restore_local_vars(saved_locals);
// outbox変数スタックを復元
self.restore_outbox_vars(saved_outbox);
return Ok(result);
}
}
// 📚 nyashstd標準ライブラリのメソッドチェック
let stdlib_method = if let Some(ref stdlib) = self.stdlib {
if let Some(nyashstd_namespace) = stdlib.namespaces.get("nyashstd") {
if let Some(static_box) = nyashstd_namespace.static_boxes.get(name) {
if let Some(builtin_method) = static_box.methods.get(method) {
Some(*builtin_method) // Copyトレイトで関数ポインターをコピー
} else {
eprintln!("🔍 Method '{}' not found in nyashstd.{}", method, name);
None
}
} else {
eprintln!("🔍 Static box '{}' not found in nyashstd", name);
None
}
} else {
eprintln!("🔍 nyashstd namespace not found in stdlib");
None
}
} else {
eprintln!("🔍 stdlib not initialized for method call");
None
};
if let Some(builtin_method) = stdlib_method {
eprintln!("🌟 Calling nyashstd method: {}.{}", name, method);
// 引数を評価
let mut arg_values = Vec::new();
for arg in arguments {
arg_values.push(self.execute_expression(arg)?);
}
// 標準ライブラリのメソッドを実行
let result = builtin_method(&arg_values)?;
eprintln!("✅ nyashstd method completed: {}.{}", name, method);
return Ok(result);
}
}
// オブジェクトを評価(通常のメソッド呼び出し)
let obj_value = self.execute_expression(object)?;
// StringBox method calls
if let Some(string_box) = obj_value.as_any().downcast_ref::<StringBox>() {
return self.execute_string_method(string_box, method, arguments);
}
// IntegerBox method calls
if let Some(integer_box) = obj_value.as_any().downcast_ref::<IntegerBox>() {
return self.execute_integer_method(integer_box, method, arguments);
}
// FloatBox method calls
if let Some(float_box) = obj_value.as_any().downcast_ref::<FloatBox>() {
return self.execute_float_method(float_box, method, arguments);
}
// BoolBox method calls
if let Some(bool_box) = obj_value.as_any().downcast_ref::<BoolBox>() {
return self.execute_bool_method(bool_box, method, arguments);
}
// ArrayBox method calls
if let Some(array_box) = obj_value.as_any().downcast_ref::<ArrayBox>() {
return self.execute_array_method(array_box, method, arguments);
}
// BufferBox method calls
if let Some(buffer_box) = obj_value.as_any().downcast_ref::<BufferBox>() {
return self.execute_buffer_method(buffer_box, method, arguments);
}
// FileBox method calls
if let Some(file_box) = obj_value.as_any().downcast_ref::<crate::boxes::file::FileBox>() {
return self.execute_file_method(file_box, method, arguments);
}
// ResultBox method calls
if let Some(result_box) = obj_value.as_any().downcast_ref::<crate::box_trait::ResultBox>() {
return self.execute_result_method(result_box, method, arguments);
}
// FutureBox method calls
if let Some(future_box) = obj_value.as_any().downcast_ref::<FutureBox>() {
return self.execute_future_method(future_box, method, arguments);
}
// ChannelBox method calls
if let Some(channel_box) = obj_value.as_any().downcast_ref::<ChannelBox>() {
return self.execute_channel_method(channel_box, method, arguments);
}
// JSONBox method calls
if let Some(json_box) = obj_value.as_any().downcast_ref::<JSONBox>() {
return self.execute_json_method(json_box, method, arguments);
}
// HttpClientBox method calls
if let Some(http_box) = obj_value.as_any().downcast_ref::<HttpClientBox>() {
return self.execute_http_method(http_box, method, arguments);
}
// StreamBox method calls
if let Some(stream_box) = obj_value.as_any().downcast_ref::<StreamBox>() {
return self.execute_stream_method(stream_box, method, arguments);
}
// RegexBox method calls
if let Some(regex_box) = obj_value.as_any().downcast_ref::<RegexBox>() {
return self.execute_regex_method(regex_box, method, arguments);
}
// MathBox method calls
if let Some(math_box) = obj_value.as_any().downcast_ref::<MathBox>() {
return self.execute_math_method(math_box, method, arguments);
}
// NullBox method calls
if let Some(null_box) = obj_value.as_any().downcast_ref::<crate::boxes::null_box::NullBox>() {
return self.execute_null_method(null_box, method, arguments);
}
// TimeBox method calls
if let Some(time_box) = obj_value.as_any().downcast_ref::<TimeBox>() {
return self.execute_time_method(time_box, method, arguments);
}
// DateTimeBox method calls
if let Some(datetime_box) = obj_value.as_any().downcast_ref::<DateTimeBox>() {
return self.execute_datetime_method(datetime_box, method, arguments);
}
// TimerBox method calls
if let Some(timer_box) = obj_value.as_any().downcast_ref::<crate::boxes::time_box::TimerBox>() {
return self.execute_timer_method(timer_box, method, arguments);
}
// MapBox method calls
if let Some(map_box) = obj_value.as_any().downcast_ref::<MapBox>() {
return self.execute_map_method(map_box, method, arguments);
}
// RandomBox method calls
if let Some(random_box) = obj_value.as_any().downcast_ref::<RandomBox>() {
return self.execute_random_method(random_box, method, arguments);
}
// SoundBox method calls
if let Some(sound_box) = obj_value.as_any().downcast_ref::<SoundBox>() {
return self.execute_sound_method(sound_box, method, arguments);
}
// DebugBox method calls
if let Some(debug_box) = obj_value.as_any().downcast_ref::<DebugBox>() {
return self.execute_debug_method(debug_box, method, arguments);
}
// ConsoleBox method calls
if let Some(console_box) = obj_value.as_any().downcast_ref::<crate::boxes::console_box::ConsoleBox>() {
return self.execute_console_method(console_box, method, arguments);
}
// IntentBox method calls
if let Some(intent_box) = obj_value.as_any().downcast_ref::<IntentBox>() {
return self.execute_intent_box_method(intent_box, method, arguments);
}
// SocketBox method calls
if let Some(socket_box) = obj_value.as_any().downcast_ref::<SocketBox>() {
let result = self.execute_socket_method(socket_box, method, arguments)?;
// 🔧 FIX: Update stored variable for stateful SocketBox methods
// These methods modify the SocketBox internal state, so we need to update
// the stored variable/field to ensure subsequent accesses get the updated state
if matches!(method, "bind" | "connect" | "close") {
eprintln!("🔧 DEBUG: Stateful method '{}' called, updating stored instance", method);
let updated_instance = socket_box.clone();
eprintln!("🔧 DEBUG: Updated instance created with ID={}", updated_instance.box_id());
match object {
ASTNode::Variable { name, .. } => {
eprintln!("🔧 DEBUG: Updating local variable '{}'", name);
// Handle local variables
if let Some(stored_var) = self.local_vars.get_mut(name) {
eprintln!("🔧 DEBUG: Found local variable '{}', updating from id={} to id={}",
name, stored_var.box_id(), updated_instance.box_id());
*stored_var = Arc::new(updated_instance);
} else {
eprintln!("🔧 DEBUG: Local variable '{}' not found", name);
}
},
ASTNode::FieldAccess { object: field_obj, field, .. } => {
eprintln!("🔧 DEBUG: Updating field access '{}'", field);
// Handle StaticBox fields like me.server
match field_obj.as_ref() {
ASTNode::Variable { name, .. } => {
eprintln!("🔧 DEBUG: Field object is variable '{}'", name);
if name == "me" {
eprintln!("🔧 DEBUG: Updating me.{} (via variable)", field);
if let Ok(me_instance) = self.resolve_variable("me") {
eprintln!("🔧 DEBUG: Resolved 'me' instance id={}", me_instance.box_id());
if let Some(instance) = (*me_instance).as_any().downcast_ref::<InstanceBox>() {
eprintln!("🔧 DEBUG: me is InstanceBox, setting field '{}' to updated instance id={}", field, updated_instance.box_id());
let result = instance.set_field(field, Arc::new(updated_instance));
eprintln!("🔧 DEBUG: set_field result: {:?}", result);
} else {
eprintln!("🔧 DEBUG: me is not an InstanceBox, type: {}", me_instance.type_name());
}
} else {
eprintln!("🔧 DEBUG: Failed to resolve 'me'");
}
} else {
eprintln!("🔧 DEBUG: Field object is not 'me', it's '{}'", name);
}
},
ASTNode::Me { .. } => {
eprintln!("🔧 DEBUG: Field object is Me node, updating me.{}", field);
if let Ok(me_instance) = self.resolve_variable("me") {
eprintln!("🔧 DEBUG: Resolved 'me' instance id={}", me_instance.box_id());
if let Some(instance) = (*me_instance).as_any().downcast_ref::<InstanceBox>() {
eprintln!("🔧 DEBUG: me is InstanceBox, setting field '{}' to updated instance id={}", field, updated_instance.box_id());
let result = instance.set_field(field, Arc::new(updated_instance));
eprintln!("🔧 DEBUG: set_field result: {:?}", result);
} else {
eprintln!("🔧 DEBUG: me is not an InstanceBox, type: {}", me_instance.type_name());
}
} else {
eprintln!("🔧 DEBUG: Failed to resolve 'me'");
}
},
_ => {
eprintln!("🔧 DEBUG: Field object is not a variable or me, type: {:?}", field_obj);
}
}
},
_ => {
eprintln!("🔧 DEBUG: Object type not handled: {:?}", object);
}
}
}
return Ok(result);
}
// HTTPServerBox method calls
if let Some(http_server_box) = obj_value.as_any().downcast_ref::<HTTPServerBox>() {
return self.execute_http_server_method(http_server_box, method, arguments);
}
// HTTPRequestBox method calls
if let Some(http_request_box) = obj_value.as_any().downcast_ref::<HTTPRequestBox>() {
return self.execute_http_request_method(http_request_box, method, arguments);
}
// HTTPResponseBox method calls
if let Some(http_response_box) = obj_value.as_any().downcast_ref::<HTTPResponseBox>() {
return self.execute_http_response_method(http_response_box, method, arguments);
}
// P2PBox method calls - Temporarily disabled
// if let Some(p2p_box) = obj_value.as_any().downcast_ref::<P2PBox>() {
// return self.execute_p2p_box_method(p2p_box, method, arguments);
// }
// EguiBox method calls (非WASM環境のみ)
#[cfg(all(feature = "gui", not(target_arch = "wasm32")))]
if let Some(egui_box) = obj_value.as_any().downcast_ref::<crate::boxes::EguiBox>() {
return self.execute_egui_method(egui_box, method, arguments);
}
// WebDisplayBox method calls (WASM環境のみ)
#[cfg(target_arch = "wasm32")]
if let Some(web_display_box) = obj_value.as_any().downcast_ref::<crate::boxes::WebDisplayBox>() {
return self.execute_web_display_method(web_display_box, method, arguments);
}
// WebConsoleBox method calls (WASM環境のみ)
#[cfg(target_arch = "wasm32")]
if let Some(web_console_box) = obj_value.as_any().downcast_ref::<crate::boxes::WebConsoleBox>() {
return self.execute_web_console_method(web_console_box, method, arguments);
}
// WebCanvasBox method calls (WASM環境のみ)
#[cfg(target_arch = "wasm32")]
if let Some(web_canvas_box) = obj_value.as_any().downcast_ref::<crate::boxes::WebCanvasBox>() {
return self.execute_web_canvas_method(web_canvas_box, method, arguments);
}
// MethodBox method calls
if let Some(method_box) = obj_value.as_any().downcast_ref::<crate::method_box::MethodBox>() {
return self.execute_method_box_method(method_box, method, arguments);
}
// IntegerBox method calls
if let Some(integer_box) = obj_value.as_any().downcast_ref::<IntegerBox>() {
return self.execute_integer_method(integer_box, method, arguments);
}
// FloatBox method calls (将来的に追加予定)
// RangeBox method calls (将来的に追加予定)
// InstanceBox method calls
if let Some(instance) = obj_value.as_any().downcast_ref::<InstanceBox>() {
// 🔥 Usage prohibition guard - check if instance is finalized
if instance.is_finalized() {
return Err(RuntimeError::InvalidOperation {
message: "Instance was finalized; further use is prohibited".to_string(),
});
}
// fini()は特別処理
if method == "fini" {
// 🔥 weak-fini prohibition check - prevent fini() on weak fields
if let ASTNode::FieldAccess { object: field_object, field, .. } = object {
// Check if this is me.<field>.fini() pattern
if let ASTNode::Variable { name, .. } = field_object.as_ref() {
if name == "me" {
// Get current instance to check if field is weak
if let Ok(current_me) = self.resolve_variable("me") {
if let Some(current_instance) = (*current_me).as_any().downcast_ref::<InstanceBox>() {
if current_instance.is_weak_field(field) {
return Err(RuntimeError::InvalidOperation {
message: format!(
"Cannot finalize weak field '{}' (non-owning reference)",
field
),
});
}
}
}
}
}
}
// 既に解放済みの場合は何もしない二重fini()対策)
if instance.is_finalized() {
return Ok(Box::new(VoidBox::new()));
}
// まず、Box内で定義されたfini()メソッドがあれば実行
if let Some(fini_method) = instance.get_method("fini") {
if let ASTNode::FunctionDeclaration { body, .. } = fini_method.clone() {
// 🌍 革命的メソッド実行local変数スタックを使用
let saved_locals = self.save_local_vars();
self.local_vars.clear();
// thisをlocal変数として設定
self.declare_local_variable("me", obj_value.clone_box());
// fini()メソッドの本体を実行
let mut _result = Box::new(VoidBox::new()) as Box<dyn NyashBox>;
for statement in &body {
_result = self.execute_statement(statement)?;
// return文チェック
if let super::ControlFlow::Return(_) = &self.control_flow {
self.control_flow = super::ControlFlow::None;
break;
}
}
// local変数スタックを復元
self.restore_local_vars(saved_locals);
}
}
// 🔗 Phase 8.9: Weak reference invalidation after user fini
let target_info = obj_value.to_string_box().value;
eprintln!("🔗 DEBUG: Triggering weak reference invalidation for fini: {}", target_info);
self.trigger_weak_reference_invalidation(&target_info);
// インスタンスの内部的な解放処理
instance.fini().map_err(|e| RuntimeError::InvalidOperation {
message: e,
})?;
finalization::mark_as_finalized(instance.box_id());
return Ok(Box::new(VoidBox::new()));
}
// メソッドを取得
let method_ast = instance.get_method(method)
.ok_or(RuntimeError::InvalidOperation {
message: format!("Method '{}' not found in {}", method, instance.class_name),
})?
.clone();
// メソッドが関数宣言の形式であることを確認
if let ASTNode::FunctionDeclaration { params, body, .. } = method_ast {
// 🚨 FIX: 引数評価を完全に現在のコンテキストで完了させる
let mut arg_values = Vec::new();
for (_i, arg) in arguments.iter().enumerate() {
let arg_value = self.execute_expression(arg)?;
arg_values.push(arg_value);
}
// パラメータ数チェック
if arg_values.len() != params.len() {
return Err(RuntimeError::InvalidOperation {
message: format!("Method {} expects {} arguments, got {}",
method, params.len(), arg_values.len()),
});
}
// 🌍 NOW SAFE: すべての引数評価完了後にコンテキスト切り替え
let saved_locals = self.save_local_vars();
self.local_vars.clear();
// thisをlocal変数として設定
self.declare_local_variable("me", obj_value.clone_box());
// パラメータをlocal変数として設定
for (param, value) in params.iter().zip(arg_values.iter()) {
self.declare_local_variable(param, value.clone_box());
}
// メソッド本体を実行
let mut result: Box<dyn NyashBox> = Box::new(VoidBox::new());
for statement in &body {
result = self.execute_statement(statement)?;
// return文チェック
if let super::ControlFlow::Return(return_val) = &self.control_flow {
result = return_val.clone_box();
self.control_flow = super::ControlFlow::None;
break;
}
}
// local変数スタックを復元
self.restore_local_vars(saved_locals);
Ok(result)
} else {
Err(RuntimeError::InvalidOperation {
message: format!("Method '{}' is not a valid function declaration", method),
})
}
} else {
Err(RuntimeError::TypeError {
message: format!("Cannot call method '{}' on non-instance type", method),
})
}
}
/// 🔥 FromCall実行処理 - from Parent.method(arguments) or from Parent.constructor(arguments)
pub(super) fn execute_from_call(&mut self, parent: &str, method: &str, arguments: &[ASTNode])
-> Result<Box<dyn NyashBox>, RuntimeError> {
// 1. 現在のコンテキストで'me'変数を取得(現在のインスタンス)
let current_instance_val = self.resolve_variable("me")
.map_err(|_| RuntimeError::InvalidOperation {
message: "'from' can only be used inside methods".to_string(),
})?;
let current_instance = (*current_instance_val).as_any().downcast_ref::<InstanceBox>()
.ok_or(RuntimeError::TypeError {
message: "'from' requires current instance to be InstanceBox".to_string(),
})?;
// 2. 現在のクラスのデリゲーション関係を検証
let current_class = &current_instance.class_name;
let box_declarations = self.shared.box_declarations.read().unwrap();
let current_box_decl = box_declarations.get(current_class)
.ok_or(RuntimeError::UndefinedClass {
name: current_class.clone()
})?;
// extendsまたはimplementsでparentが指定されているか確認 (Multi-delegation) 🚀
let is_valid_delegation = current_box_decl.extends.contains(&parent.to_string()) ||
current_box_decl.implements.contains(&parent.to_string());
if !is_valid_delegation {
return Err(RuntimeError::InvalidOperation {
message: format!("Class '{}' does not delegate to '{}'. Use 'box {} from {}' to establish delegation.",
current_class, parent, current_class, parent),
});
}
// 🔥 Phase 8.8: pack透明化システム - ビルトインBox判定
use crate::box_trait::is_builtin_box;
let mut is_builtin = is_builtin_box(parent);
// GUI機能が有効な場合はEguiBoxも追加判定
#[cfg(all(feature = "gui", not(target_arch = "wasm32")))]
{
if parent == "EguiBox" {
is_builtin = true;
}
}
// 🔥 Phase 8.9: Transparency system removed - all delegation must be explicit
// Removed: if is_builtin && method == parent { ... execute_builtin_constructor_call ... }
if is_builtin {
// ビルトインBoxの場合、ロックを解放してからメソッド呼び出し
drop(box_declarations);
return self.execute_builtin_box_method(parent, method, current_instance_val.clone_box(), arguments);
}
// 3. 親クラスのBox宣言を取得ユーザー定義Boxの場合
let parent_box_decl = box_declarations.get(parent)
.ok_or(RuntimeError::UndefinedClass {
name: parent.to_string()
})?
.clone();
drop(box_declarations); // ロック早期解放
// 4. constructorまたはinitまたはpackまたはbirthの場合の特別処理
if method == "constructor" || method == "init" || method == "pack" || method == "birth" || method == parent {
return self.execute_from_parent_constructor(parent, &parent_box_decl, current_instance_val.clone_box(), arguments);
}
// 5. 親クラスのメソッドを取得
let parent_method = parent_box_decl.methods.get(method)
.ok_or(RuntimeError::InvalidOperation {
message: format!("Method '{}' not found in parent class '{}'", method, parent),
})?
.clone();
// 6. 引数を評価
let mut arg_values = Vec::new();
for arg in arguments {
arg_values.push(self.execute_expression(arg)?);
}
// 7. 親メソッドを実行
if let ASTNode::FunctionDeclaration { params, body, .. } = parent_method {
// パラメータ数チェック
if arg_values.len() != params.len() {
return Err(RuntimeError::InvalidOperation {
message: format!("Parent method {}.{} expects {} arguments, got {}",
parent, method, params.len(), arg_values.len()),
});
}
// 🌍 local変数スタックを保存・クリア親メソッド実行開始
let saved_locals = self.save_local_vars();
self.local_vars.clear();
// 'me'を現在のインスタンスに設定(重要:現在のインスタンスを維持)
self.declare_local_variable("me", current_instance_val.clone_box());
// 引数をlocal変数として設定
for (param, value) in params.iter().zip(arg_values.iter()) {
self.declare_local_variable(param, value.clone_box());
}
// 親メソッドの本体を実行
let mut result: Box<dyn NyashBox> = Box::new(VoidBox::new());
for statement in &body {
result = self.execute_statement(statement)?;
// return文チェック
if let super::ControlFlow::Return(return_val) = &self.control_flow {
result = return_val.clone_box();
self.control_flow = super::ControlFlow::None;
break;
}
}
// 🔍 DEBUG: FromCall実行結果をログ出力
eprintln!("🔍 DEBUG: FromCall {}.{} result: {}", parent, method, result.to_string_box().value);
// local変数スタックを復元
self.restore_local_vars(saved_locals);
Ok(result)
} else {
Err(RuntimeError::InvalidOperation {
message: format!("Parent method '{}' is not a valid function declaration", method),
})
}
}
/// 🔥 fromCall専用親コンストラクタ実行処理 - from Parent.constructor(arguments)
fn execute_from_parent_constructor(&mut self, parent: &str, parent_box_decl: &super::BoxDeclaration,
current_instance: Box<dyn NyashBox>, arguments: &[ASTNode])
-> Result<Box<dyn NyashBox>, RuntimeError> {
// 1. 親クラスのコンストラクタを取得(引数の数でキーを作成)
// "birth/引数数"、"pack/引数数"、"init/引数数"、"Box名/引数数" の順で試す
let birth_key = format!("birth/{}", arguments.len());
let pack_key = format!("pack/{}", arguments.len());
let init_key = format!("init/{}", arguments.len());
let box_name_key = format!("{}/{}", parent, arguments.len());
let parent_constructor = parent_box_decl.constructors.get(&birth_key)
.or_else(|| parent_box_decl.constructors.get(&pack_key))
.or_else(|| parent_box_decl.constructors.get(&init_key))
.or_else(|| parent_box_decl.constructors.get(&box_name_key))
.ok_or(RuntimeError::InvalidOperation {
message: format!("No constructor found for parent class '{}' with {} arguments", parent, arguments.len()),
})?
.clone();
// 2. 引数を評価
let mut arg_values = Vec::new();
for arg in arguments {
arg_values.push(self.execute_expression(arg)?);
}
// 3. 親コンストラクタを実行
if let ASTNode::FunctionDeclaration { params, body, .. } = parent_constructor {
// パラメータ数チェック
if arg_values.len() != params.len() {
return Err(RuntimeError::InvalidOperation {
message: format!("Parent constructor {} expects {} arguments, got {}",
parent, params.len(), arg_values.len()),
});
}
// 🌍 local変数スタックを保存・クリア親コンストラクタ実行開始
let saved_locals = self.save_local_vars();
self.local_vars.clear();
// 'me'を現在のインスタンスに設定
self.declare_local_variable("me", current_instance.clone_box());
// 引数をlocal変数として設定
for (param, value) in params.iter().zip(arg_values.iter()) {
self.declare_local_variable(param, value.clone_box());
}
// 親コンストラクタの本体を実行
let mut _result: Box<dyn NyashBox> = Box::new(VoidBox::new());
for statement in &body {
_result = self.execute_statement(statement)?;
// return文チェック
if let super::ControlFlow::Return(return_val) = &self.control_flow {
_result = return_val.clone_box();
self.control_flow = super::ControlFlow::None;
break;
}
}
// local変数スタックを復元
self.restore_local_vars(saved_locals);
// 親コンストラクタは通常現在のインスタンスを返す
Ok(current_instance)
} else {
Err(RuntimeError::InvalidOperation {
message: format!("Parent constructor is not a valid function declaration"),
})
}
}
}
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