/*! * Execution Runner Module - Nyash File and Mode Execution Coordinator * * This module handles all execution logic, backend selection, and mode coordination, * separated from CLI parsing and the main entry point. */ use nyash_rust::cli::CliConfig; use nyash_rust::{ box_trait::{NyashBox, StringBox, IntegerBox, BoolBox, VoidBox, AddBox, BoxCore}, tokenizer::{NyashTokenizer}, ast::ASTNode, parser::NyashParser, interpreter::NyashInterpreter, mir::{MirCompiler, MirPrinter, MirInstruction}, backend::VM, }; #[cfg(feature = "wasm-backend")] use nyash_rust::backend::{wasm::WasmBackend, aot::AotBackend}; #[cfg(feature = "llvm")] use nyash_rust::backend::{llvm_compile_and_execute}; use std::{fs, process}; // v2 plugin system imports use nyash_rust::runtime::{init_global_loader_v2, get_global_registry, get_global_loader_v2, PluginConfig}; /// Main execution coordinator pub struct NyashRunner { config: CliConfig, } impl NyashRunner { /// Create a new runner with the given configuration pub fn new(config: CliConfig) -> Self { Self { config } } /// Run Nyash based on the configuration pub fn run(&self) { // ๐Ÿญ Phase 9.78b: Initialize unified registry nyash_rust::runtime::init_global_unified_registry(); // Try to initialize BID plugins from nyash.toml (best-effort) self.init_bid_plugins(); // Benchmark mode - can run without a file if self.config.benchmark { println!("๐Ÿ“Š Nyash Performance Benchmark Suite"); println!("===================================="); println!("Running {} iterations per test...", self.config.iterations); println!(); self.execute_benchmark_mode(); return; } if let Some(ref filename) = self.config.file { self.execute_file_mode(filename); } else { self.execute_demo_mode(); } } fn init_bid_plugins(&self) { // v2ใƒ—ใƒฉใ‚ฐใ‚คใƒณใ‚ทใ‚นใƒ†ใƒ ใ‚’ๅˆๆœŸๅŒ– eprintln!("๐Ÿ” DEBUG: Initializing v2 plugin system"); // Try to load nyash.toml configuration if let Ok(()) = init_global_loader_v2("nyash.toml") { println!("๐Ÿ”Œ v2 plugin system initialized from nyash.toml"); // Apply plugin configuration to the box registry let loader = get_global_loader_v2(); let loader = loader.read().unwrap(); if let Some(config) = &loader.config { // Register plugin providers in the box registry let registry = get_global_registry(); for (lib_name, lib_def) in &config.libraries { for box_name in &lib_def.boxes { eprintln!(" ๐Ÿ“ฆ Registering plugin provider for {}", box_name); // Note: plugin_name is lib_name in v2 system registry.apply_plugin_config(&PluginConfig { plugins: [(box_name.clone(), lib_name.clone())].into(), }); } } println!("โœ… v2 plugin system fully configured"); } } else { eprintln!("โš ๏ธ Failed to load nyash.toml - plugins disabled"); } } /// Execute file-based mode with backend selection fn execute_file_mode(&self, filename: &str) { if self.config.dump_mir || self.config.verify_mir { println!("๐Ÿš€ Nyash MIR Compiler - Processing file: {} ๐Ÿš€", filename); self.execute_mir_mode(filename); } else if self.config.compile_wasm { #[cfg(feature = "wasm-backend")] { println!("๐ŸŒ Nyash WASM Compiler - Processing file: {} ๐ŸŒ", filename); self.execute_wasm_mode(filename); } #[cfg(not(feature = "wasm-backend"))] { eprintln!("โŒ WASM backend not available. Please rebuild with: cargo build --features wasm-backend"); process::exit(1); } } else if self.config.compile_native { #[cfg(feature = "wasm-backend")] { println!("๐Ÿš€ Nyash AOT Compiler - Processing file: {} ๐Ÿš€", filename); self.execute_aot_mode(filename); } #[cfg(not(feature = "wasm-backend"))] { eprintln!("โŒ AOT backend not available. Please rebuild with: cargo build --features wasm-backend"); process::exit(1); } } else if self.config.backend == "vm" { println!("๐Ÿš€ Nyash VM Backend - Executing file: {} ๐Ÿš€", filename); self.execute_vm_mode(filename); } else if self.config.backend == "llvm" { println!("โšก Nyash LLVM Backend - Executing file: {} โšก", filename); self.execute_llvm_mode(filename); } else { println!("๐Ÿฆ€ Nyash Rust Implementation - Executing file: {} ๐Ÿฆ€", filename); if let Some(fuel) = self.config.debug_fuel { println!("๐Ÿ”ฅ Debug fuel limit: {} iterations", fuel); } else { println!("๐Ÿ”ฅ Debug fuel limit: unlimited"); } println!("===================================================="); self.execute_nyash_file(filename); } } /// Execute demo mode with all demonstrations fn execute_demo_mode(&self) { println!("๐Ÿฆ€ Nyash Rust Implementation - Everything is Box! ๐Ÿฆ€"); println!("===================================================="); // Demonstrate basic Box creation and operations demo_basic_boxes(); // Demonstrate Box operations demo_box_operations(); // Demonstrate Box collections demo_box_collections(); // Demonstrate Environment & Scope management demo_environment_system(); // Demonstrate Tokenizer system demo_tokenizer_system(); // Demonstrate Parser system demo_parser_system(); // Demonstrate Interpreter system demo_interpreter_system(); println!("\n๐ŸŽ‰ All Box operations completed successfully!"); println!("Memory safety guaranteed by Rust's borrow checker! ๐Ÿ›ก๏ธ"); } /// Execute Nyash file with interpreter fn execute_nyash_file(&self, filename: &str) { // Read the file let code = match fs::read_to_string(filename) { Ok(content) => content, Err(e) => { eprintln!("โŒ Error reading file {}: {}", filename, e); process::exit(1); } }; println!("๐Ÿ“ File contents:\n{}", code); println!("\n๐Ÿš€ Parsing and executing...\n"); // Test: immediate file creation (use relative path to avoid sandbox issues) std::fs::create_dir_all("development/debug_hang_issue").ok(); std::fs::write("development/debug_hang_issue/test.txt", "START").ok(); // Parse the code with debug fuel limit eprintln!("๐Ÿ” DEBUG: Starting parse with fuel: {:?}...", self.config.debug_fuel); let ast = match NyashParser::parse_from_string_with_fuel(&code, self.config.debug_fuel) { Ok(ast) => { eprintln!("๐Ÿ” DEBUG: Parse completed, AST created"); ast }, Err(e) => { eprintln!("โŒ Parse error: {}", e); process::exit(1); } }; eprintln!("๐Ÿ” DEBUG: About to print parse success message..."); println!("โœ… Parse successful!"); eprintln!("๐Ÿ” DEBUG: Parse success message printed"); // Debug log file write if let Ok(mut file) = std::fs::OpenOptions::new() .create(true) .append(true) .open("development/debug_hang_issue/debug_trace.log") { use std::io::Write; let _ = writeln!(file, "=== MAIN: Parse successful ==="); let _ = file.flush(); } eprintln!("๐Ÿ” DEBUG: Creating interpreter..."); // Execute the AST let mut interpreter = NyashInterpreter::new(); eprintln!("๐Ÿ” DEBUG: Starting execution..."); match interpreter.execute(ast) { Ok(result) => { println!("โœ… Execution completed successfully!"); println!("Result: {}", result.to_string_box().value); }, Err(e) => { // Use enhanced error reporting with source context eprintln!("โŒ Runtime error:\n{}", e.detailed_message(Some(&code))); process::exit(1); } } } /// Execute MIR compilation and processing mode fn execute_mir_mode(&self, filename: &str) { // Read the file let code = match fs::read_to_string(filename) { Ok(content) => content, Err(e) => { eprintln!("โŒ Error reading file {}: {}", filename, e); process::exit(1); } }; // Parse to AST let ast = match NyashParser::parse_from_string(&code) { Ok(ast) => ast, Err(e) => { eprintln!("โŒ Parse error: {}", e); process::exit(1); } }; // Compile to MIR let mut mir_compiler = MirCompiler::new(); let compile_result = match mir_compiler.compile(ast) { Ok(result) => result, Err(e) => { eprintln!("โŒ MIR compilation error: {}", e); process::exit(1); } }; // Verify MIR if requested if self.config.verify_mir { println!("๐Ÿ” Verifying MIR..."); match &compile_result.verification_result { Ok(()) => println!("โœ… MIR verification passed!"), Err(errors) => { eprintln!("โŒ MIR verification failed:"); for error in errors { eprintln!(" โ€ข {}", error); } process::exit(1); } } } // Dump MIR if requested if self.config.dump_mir { let mut printer = if self.config.mir_verbose { MirPrinter::verbose() } else { MirPrinter::new() }; println!("๐Ÿš€ MIR Output for {}:", filename); println!("{}", printer.print_module(&compile_result.module)); } } /// Execute VM mode fn execute_vm_mode(&self, filename: &str) { // Read the file let code = match fs::read_to_string(filename) { Ok(content) => content, Err(e) => { eprintln!("โŒ Error reading file {}: {}", filename, e); process::exit(1); } }; // Parse to AST let ast = match NyashParser::parse_from_string(&code) { Ok(ast) => ast, Err(e) => { eprintln!("โŒ Parse error: {}", e); process::exit(1); } }; // Compile to MIR let mut mir_compiler = MirCompiler::new(); let compile_result = match mir_compiler.compile(ast) { Ok(result) => result, Err(e) => { eprintln!("โŒ MIR compilation error: {}", e); process::exit(1); } }; // Execute with VM let mut vm = VM::new(); match vm.execute_module(&compile_result.module) { Ok(result) => { println!("โœ… VM execution completed successfully!"); println!("Result: {:?}", result); }, Err(e) => { eprintln!("โŒ VM execution error: {}", e); process::exit(1); } } } /// Execute WASM compilation mode #[cfg(feature = "wasm-backend")] fn execute_wasm_mode(&self, filename: &str) { // Read the file let code = match fs::read_to_string(filename) { Ok(content) => content, Err(e) => { eprintln!("โŒ Error reading file {}: {}", filename, e); process::exit(1); } }; // Parse to AST let ast = match NyashParser::parse_from_string(&code) { Ok(ast) => ast, Err(e) => { eprintln!("โŒ Parse error: {}", e); process::exit(1); } }; // Compile to MIR let mut mir_compiler = MirCompiler::new(); let compile_result = match mir_compiler.compile(ast) { Ok(result) => result, Err(e) => { eprintln!("โŒ MIR compilation error: {}", e); process::exit(1); } }; // Compile to WASM (Phase 9.77a fix: use compile_to_wat instead of compile_module) let mut wasm_backend = WasmBackend::new(); let wat_text = match wasm_backend.compile_to_wat(compile_result.module) { Ok(wat) => wat, Err(e) => { eprintln!("โŒ WASM compilation error: {}", e); process::exit(1); } }; // Determine output file let output = self.config.output_file.as_deref() .unwrap_or_else(|| { if filename.ends_with(".nyash") { filename.strip_suffix(".nyash").unwrap_or(filename) } else { filename } }); let output_file = format!("{}.wat", output); // Write WAT output (already a string) let output_str = wat_text; match fs::write(&output_file, output_str) { Ok(()) => { println!("โœ… WASM compilation successful!"); println!("Output written to: {}", output_file); }, Err(e) => { eprintln!("โŒ Error writing WASM file {}: {}", output_file, e); process::exit(1); } } } /// Execute AOT compilation mode #[cfg(feature = "wasm-backend")] fn execute_aot_mode(&self, filename: &str) { // Read the file let code = match fs::read_to_string(filename) { Ok(content) => content, Err(e) => { eprintln!("โŒ Error reading file {}: {}", filename, e); process::exit(1); } }; // Parse to AST let ast = match NyashParser::parse_from_string(&code) { Ok(ast) => ast, Err(e) => { eprintln!("โŒ Parse error: {}", e); process::exit(1); } }; // Compile to MIR let mut mir_compiler = MirCompiler::new(); let compile_result = match mir_compiler.compile(ast) { Ok(result) => result, Err(e) => { eprintln!("โŒ MIR compilation error: {}", e); process::exit(1); } }; // Compile via AOT backend let mut aot_backend = match AotBackend::new() { Ok(backend) => backend, Err(e) => { eprintln!("โŒ Failed to create AOT backend: {}", e); process::exit(1); } }; let output = self.config.output_file.as_deref() .unwrap_or_else(|| { if filename.ends_with(".nyash") { filename.strip_suffix(".nyash").unwrap_or(filename) } else { filename } }); match aot_backend.compile_to_executable(compile_result.module, output) { Ok(()) => { println!("โœ… AOT compilation successful!"); println!("Executable written to: {}", output); }, Err(e) => { eprintln!("โŒ AOT compilation error: {}", e); process::exit(1); } } } /// Execute LLVM mode fn execute_llvm_mode(&self, filename: &str) { // Read the file let code = match fs::read_to_string(filename) { Ok(content) => content, Err(e) => { eprintln!("โŒ Error reading file {}: {}", filename, e); process::exit(1); } }; // Parse to AST let ast = match NyashParser::parse_from_string(&code) { Ok(ast) => ast, Err(e) => { eprintln!("โŒ Parse error: {}", e); process::exit(1); } }; // Compile to MIR let mut mir_compiler = MirCompiler::new(); let compile_result = match mir_compiler.compile(ast) { Ok(result) => result, Err(e) => { eprintln!("โŒ MIR compilation error: {}", e); process::exit(1); } }; println!("๐Ÿ“Š MIR Module compiled successfully!"); println!("๐Ÿ“Š Functions: {}", compile_result.module.functions.len()); // Execute via LLVM backend (mock implementation) #[cfg(feature = "llvm")] { let temp_path = "nyash_llvm_temp"; match llvm_compile_and_execute(&compile_result.module, temp_path) { Ok(result) => { if let Some(int_result) = result.as_any().downcast_ref::() { let exit_code = int_result.value; println!("โœ… LLVM execution completed!"); println!("๐Ÿ“Š Exit code: {}", exit_code); // Exit with the same code for testing process::exit(exit_code as i32); } else { println!("โœ… LLVM execution completed (non-integer result)!"); println!("๐Ÿ“Š Result: {}", result.to_string_box().value); } }, Err(e) => { eprintln!("โŒ LLVM execution error: {}", e); process::exit(1); } } } #[cfg(not(feature = "llvm"))] { // Mock implementation for demonstration println!("๐Ÿ”ง Mock LLVM Backend Execution:"); println!(" This demonstrates the LLVM backend integration structure."); println!(" For actual LLVM compilation, build with --features llvm"); println!(" and ensure LLVM 17+ development libraries are installed."); // Analyze the MIR to provide a meaningful mock result if let Some(main_func) = compile_result.module.functions.get("Main.main") { for (_block_id, block) in &main_func.blocks { for inst in &block.instructions { match inst { MirInstruction::Return { value: Some(_) } => { println!(" ๐Ÿ“Š Found return instruction - would generate LLVM return 42"); println!("โœ… Mock LLVM execution completed!"); println!("๐Ÿ“Š Mock exit code: 42"); process::exit(42); } MirInstruction::Return { value: None } => { println!(" ๐Ÿ“Š Found void return - would generate LLVM return 0"); println!("โœ… Mock LLVM execution completed!"); println!("๐Ÿ“Š Mock exit code: 0"); process::exit(0); } _ => {} } } } } println!("โœ… Mock LLVM execution completed!"); println!("๐Ÿ“Š Mock exit code: 0"); process::exit(0); } } /// Execute benchmark mode fn execute_benchmark_mode(&self) { println!("๐Ÿ Running benchmark mode with {} iterations", self.config.iterations); // Simple benchmark test file let test_code = r#" local x x = 42 local y y = x + 58 return y "#; println!("\n๐Ÿงช Test code:"); println!("{}", test_code); // Benchmark interpreter println!("\nโšก Interpreter Backend:"); let start = std::time::Instant::now(); for _ in 0..self.config.iterations { if let Ok(ast) = NyashParser::parse_from_string(test_code) { let mut interpreter = NyashInterpreter::new(); let _ = interpreter.execute(ast); } } let interpreter_time = start.elapsed(); println!(" {} iterations in {:?} ({:.2} ops/sec)", self.config.iterations, interpreter_time, self.config.iterations as f64 / interpreter_time.as_secs_f64()); // Benchmark VM if available println!("\n๐Ÿš€ VM Backend:"); let start = std::time::Instant::now(); for _ in 0..self.config.iterations { if let Ok(ast) = NyashParser::parse_from_string(test_code) { let mut mir_compiler = MirCompiler::new(); if let Ok(compile_result) = mir_compiler.compile(ast) { let mut vm = VM::new(); let _ = vm.execute_module(&compile_result.module); } } } let vm_time = start.elapsed(); println!(" {} iterations in {:?} ({:.2} ops/sec)", self.config.iterations, vm_time, self.config.iterations as f64 / vm_time.as_secs_f64()); // Performance comparison let speedup = interpreter_time.as_secs_f64() / vm_time.as_secs_f64(); println!("\n๐Ÿ“Š Performance Summary:"); println!(" VM is {:.2}x {} than Interpreter", if speedup > 1.0 { speedup } else { 1.0 / speedup }, if speedup > 1.0 { "faster" } else { "slower" }); } } // Demo functions (moved from main.rs) fn demo_basic_boxes() { println!("\n๐Ÿ“ฆ 1. Basic Box Creation:"); // Create different types of boxes let string_box = StringBox::new("Hello, Nyash!".to_string()); let int_box = IntegerBox::new(42); let bool_box = BoolBox::new(true); let void_box = VoidBox::new(); println!(" StringBox: {}", string_box.to_string_box().value); println!(" IntegerBox: {}", int_box.to_string_box().value); println!(" BoolBox: {}", bool_box.to_string_box().value); println!(" VoidBox: {}", void_box.to_string_box().value); // Show unique IDs println!(" Box IDs: String={}, Integer={}, Bool={}, Void={}", string_box.box_id(), int_box.box_id(), bool_box.box_id(), void_box.box_id()); } fn demo_box_operations() { println!("\n๐Ÿ”„ 2. Box Operations:"); // Addition between boxes let left = IntegerBox::new(10); let right = IntegerBox::new(32); let add_box = AddBox::new(Box::new(left), Box::new(right)); println!(" 10 + 32 = {}", add_box.to_string_box().value); // String concatenation let str1 = StringBox::new("Hello, ".to_string()); let str2 = StringBox::new("World!".to_string()); let concat_box = AddBox::new(Box::new(str1), Box::new(str2)); println!(" \"Hello, \" + \"World!\" = {}", concat_box.to_string_box().value); } fn demo_box_collections() { println!("\n๐Ÿ“š 3. Box Collections:"); // This would be expanded when ArrayBox is implemented println!(" Box collections functionality placeholder"); println!(" (ArrayBox and other collection types will be demonstrated here)"); } fn demo_environment_system() { println!("\n๐ŸŒ 4. Environment & Scope Management:"); println!(" Environment demo placeholder - full testing done in interpreter"); } fn demo_tokenizer_system() { println!("\n๐Ÿ”ค 5. Tokenizer System:"); // Test code to tokenize let test_code = "x = 42 + y"; println!(" Input: {}", test_code); // Tokenize the code let mut tokenizer = NyashTokenizer::new(test_code); match tokenizer.tokenize() { Ok(tokens) => { println!(" Tokenized {} tokens successfully", tokens.len()); }, Err(e) => println!(" Tokenization error: {}", e), } } fn demo_parser_system() { println!("\n๐ŸŒณ 6. Parser & AST System:"); // Test simple box declaration println!(" ๐Ÿ“ Simple Box Declaration Test:"); let simple_code = r#" box TestBox { value getValue() { return this.value } } "#; match NyashParser::parse_from_string(simple_code) { Ok(ast) => { println!(" Input: {}", simple_code.trim()); println!(" AST: {}", ast); if let ASTNode::Program { statements, .. } = &ast { println!(" Program has {} statements", statements.len()); for (i, stmt) in statements.iter().enumerate() { println!(" [{}] {}", i, stmt.info()); } } } Err(e) => println!(" Error: {}", e), } // Test assignment and method call println!("\n ๐Ÿš€ Assignment & Method Call Test:"); let assignment_code = r#" obj = new TestBox() obj.value = "test123" print("Direct field: " + obj.value) print("Method call: " + obj.getValue()) "#; match NyashParser::parse_from_string(assignment_code) { Ok(ast) => { println!(" Successfully parsed assignment & method call code"); if let ASTNode::Program { statements, .. } = &ast { println!(" Parsed {} statements:", statements.len()); for (i, stmt) in statements.iter().enumerate() { println!(" [{}] {} ({})", i, stmt.info(), stmt.node_type()); } } } Err(e) => println!(" Error: {}", e), } // Test expression parsing println!("\n โšก Expression Parsing Test:"); let expr_code = r#" result = x + y * z condition = a == b && c < d "#; match NyashParser::parse_from_string(expr_code) { Ok(ast) => { println!(" Successfully parsed complex expressions"); if let ASTNode::Program { statements, .. } = &ast { for (i, stmt) in statements.iter().enumerate() { if let ASTNode::Assignment { target, value, .. } = stmt { println!(" Assignment [{}]: {} = {}", i, target.info(), value.info()); } } } } Err(e) => println!(" Error: {}", e), } // Test control structures println!("\n ๐Ÿ”„ Control Structure Test:"); let control_code = r#" if condition { print("True branch") } else { print("False branch") } loop { print("Loop body") return } "#; match NyashParser::parse_from_string(control_code) { Ok(ast) => { println!(" Successfully parsed control structures"); if let ASTNode::Program { statements, .. } = &ast { for (i, stmt) in statements.iter().enumerate() { println!(" [{}] {} ({})", i, stmt.info(), stmt.node_type()); } } } Err(e) => println!(" Error: {}", e), } } fn demo_interpreter_system() { println!("\n๐ŸŽญ 7. Interpreter System:"); // Simple execution test let simple_code = r#" local x x = 42 return x "#; println!(" ๐Ÿ“ Simple Variable Test:"); println!(" Code: {}", simple_code.trim()); match NyashParser::parse_from_string(simple_code) { Ok(ast) => { let mut interpreter = NyashInterpreter::new(); match interpreter.execute(ast) { Ok(result) => { println!(" โœ… Result: {}", result.to_string_box().value); }, Err(e) => { println!(" โŒ Execution error: {}", e); } } } Err(e) => println!(" โŒ Parse error: {}", e), } // Expression evaluation test let expr_code = r#" local result result = 10 + 32 return result "#; println!("\n โšก Expression Evaluation Test:"); println!(" Code: {}", expr_code.trim()); match NyashParser::parse_from_string(expr_code) { Ok(ast) => { let mut interpreter = NyashInterpreter::new(); match interpreter.execute(ast) { Ok(result) => { println!(" โœ… Result: {}", result.to_string_box().value); }, Err(e) => { println!(" โŒ Execution error: {}", e); } } } Err(e) => println!(" โŒ Parse error: {}", e), } } #[cfg(test)] mod tests { use super::*; #[test] fn test_runner_creation() { let config = CliConfig { file: None, debug_fuel: Some(100000), dump_mir: false, verify_mir: false, mir_verbose: false, backend: "interpreter".to_string(), compile_wasm: false, compile_native: false, output_file: None, benchmark: false, iterations: 10, }; let runner = NyashRunner::new(config); assert_eq!(runner.config.backend, "interpreter"); } }