//! Compiles a Leo program from a file path. use crate::{ ast, constraints::{generate_constraints, ConstrainedValue}, errors::CompilerError, GroupType, InputValue, Program, }; use snarkos_errors::gadgets::SynthesisError; use snarkos_models::{ curves::{Field, PrimeField}, gadgets::r1cs::{ConstraintSynthesizer, ConstraintSystem}, }; use from_pest::FromPest; use sha2::{Digest, Sha256}; use std::{fs, marker::PhantomData, path::PathBuf}; #[derive(Clone)] pub struct Compiler> { package_name: String, main_file_path: PathBuf, program: Program, program_inputs: Vec>, output: Option>, _engine: PhantomData, } impl> Compiler { pub fn init(package_name: String, main_file_path: PathBuf) -> Result { let mut program = Self { package_name, main_file_path, program: Program::new(), program_inputs: vec![], output: None, _engine: PhantomData, }; // Generate the abstract syntax tree and assemble the program program.parse_program()?; Ok(program) } pub fn set_inputs(&mut self, program_inputs: Vec>) { self.program_inputs = program_inputs; } pub fn checksum(&self) -> Result { // Read in the main file as string let unparsed_file = fs::read_to_string(&self.main_file_path) .map_err(|_| CompilerError::FileReadError(self.main_file_path.clone()))?; // Hash the file contents let mut hasher = Sha256::new(); hasher.input(unparsed_file.as_bytes()); let hash = hasher.result(); Ok(hex::encode(hash)) } pub fn compile_constraints>( self, cs: &mut CS, ) -> Result, CompilerError> { generate_constraints(cs, self.program, self.program_inputs) } // pub fn compile(&self) -> Result { // // Read in the main file as string // let unparsed_file = fs::read_to_string(&self.main_file_path).map_err(|_| CompilerError::FileReadError(self.main_file_path.clone()))?; // // // Parse the file using leo.pest // let mut file = ast::parse(&unparsed_file).map_err(|_| CompilerError::FileParsingError)?; // // // Build the abstract syntax tree // let syntax_tree = ast::File::from_pest(&mut file).map_err(|_| CompilerError::SyntaxTreeError)?; // log::debug!("{:#?}", syntax_tree); // // Ok(syntax_tree) // } fn parse_program(&mut self) -> Result<(), CompilerError> { // Read in the main file as string let unparsed_file = fs::read_to_string(&self.main_file_path) .map_err(|_| CompilerError::FileReadError(self.main_file_path.clone()))?; // Parse the file using leo.pest let mut file = ast::parse(&unparsed_file).map_err(|error| { CompilerError::from(error.with_path(&self.main_file_path.to_str().unwrap())) })?; // Build the abstract syntax tree let syntax_tree = ast::File::from_pest(&mut file).map_err(|_| CompilerError::SyntaxTreeError)?; log::debug!("{:#?}", syntax_tree); // Build program from abstract syntax tree let package_name = self.package_name.clone(); self.program = Program::from(syntax_tree, package_name); self.program_inputs = vec![None; self.program.num_parameters]; log::debug!("Program parsing complete\n{:#?}", self.program); Ok(()) } } impl> ConstraintSynthesizer for Compiler { fn generate_constraints>( self, cs: &mut CS, ) -> Result<(), SynthesisError> { let _result = generate_constraints::<_, G, _>(cs, self.program, self.program_inputs).unwrap(); // Write results to file or something Ok(()) } }