Yet another AOT compiler for Rust to realize true isomorphism.
Existing Rust interpreters are mostly wrappers around cargo build or rustc. This incurs extra overhead, such as spawning processes and accessing the file system. Depending on the use case, this approach may not be suitable for compiling and running Rust code in Rust programs.
This crate aims to provide fully in-memory compilation of Rust code into assembly and its execution. This will empower software that requires dynamic code generation.
```rust use autophagymlir::Compiler; use melior::{ dialect::DialectRegistry, ir::{Location, Module}, pass::{self, PassManager}, utility::{registeralldialects, registerallllvmtranslations}, Context, ExecutionEngine, };
fn fibonacci(x: i32) -> i32 { if x <= 0i32 { 0i32 } else if x == 1i32 { 1i32 } else { fibonacci(x - 1i32) + fibonacci(x - 2i32) } }
let registry = DialectRegistry::new(); registeralldialects(®istry);
let context = Context::new(); context.appenddialectregistry(®istry); context.loadallavailabledialects(); registerallllvmtranslations(&context); context.attachdiagnostichandler(|diagnostic| { eprintln!("{}", diagnostic); true });
let location = Location::unknown(&context);
let mut module = Module::new(location);
Compiler::new(&context, &module).compilefn(&fibonaccifn()).unwrap();
assert!(module.as_operation().verify());
let passmanager = PassManager::new(&context); passmanager.addpass(pass::conversion::createfunctollvm());
passmanager .nestedunder("func.func") .addpass(pass::conversion::createarithtollvm()); passmanager .nestedunder("func.func") .addpass(pass::conversion::createindextollvmpass()); passmanager.addpass(pass::conversion::createscftocontrolflow()); passmanager.addpass(pass::conversion::createcontrolflowtollvm()); passmanager.addpass(pass::conversion::creatememrefto_llvm());
pass_manager.run(&mut module).unwrap();
assert!(module.as_operation().verify());
let engine = ExecutionEngine::new(&module, 2, &[], false);
let mut argument = 5; let mut result = -1;
asserteq!( unsafe { engine.invokepacked( "fibonacci", &mut [ &mut argument as *mut _ as *mut _, &mut result as *mut _ as *mut _, ], ) }, Ok(()) );
assert_eq!(result, fibonacci(argument)); ```
let binding= assignment
struct fieldswhile statementloop statementif expressionstruct field access+=)impl block and self receiverDual-licensed under MIT and Apache 2.0.