leo/compiler/src/compiler.rs

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//! Compiles a Leo program from a file path.
use crate::{
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constraints::{generate_constraints, generate_test_constraints, ConstrainedValue},
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errors::CompilerError,
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GroupType,
ProgramImports,
};
use leo_ast::LeoParser;
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use leo_inputs::LeoInputsParser;
use leo_types::{InputValue, Inputs, Program};
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use snarkos_errors::gadgets::SynthesisError;
use snarkos_models::{
curves::{Field, PrimeField},
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gadgets::r1cs::{ConstraintSynthesizer, ConstraintSystem, TestConstraintSystem},
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};
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use sha2::{Digest, Sha256};
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use std::{fs, marker::PhantomData, path::PathBuf};
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#[derive(Clone)]
pub struct Compiler<F: Field + PrimeField, G: GroupType<F>> {
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package_name: String,
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main_file_path: PathBuf,
program: Program,
program_inputs: Inputs,
program_imports: ProgramImports,
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output: Option<ConstrainedValue<F, G>>,
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_engine: PhantomData<F>,
}
impl<F: Field + PrimeField, G: GroupType<F>> Compiler<F, G> {
pub fn new(package_name: String) -> Self {
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Self {
package_name: package_name.clone(),
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main_file_path: PathBuf::new(),
program: Program::new(package_name),
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program_inputs: Inputs::new(),
program_imports: ProgramImports::new(),
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output: None,
_engine: PhantomData,
}
}
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pub fn new_from_path(package_name: String, main_file_path: PathBuf) -> Result<Self, CompilerError> {
let mut compiler = Self::new(package_name);
compiler.set_path(main_file_path);
// Generate the abstract syntax tree and assemble the program
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let program_string = compiler.load_program()?;
compiler.parse_program(&program_string)?;
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Ok(compiler)
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}
pub fn set_path(&mut self, main_file_path: PathBuf) {
self.main_file_path = main_file_path
}
pub fn set_inputs(&mut self, program_inputs: Vec<Option<InputValue>>) {
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self.program_inputs.set_inputs(program_inputs);
}
pub fn checksum(&self) -> Result<String, CompilerError> {
// Read in the main file as string
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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();
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hasher.update(unparsed_file.as_bytes());
let hash = hasher.finalize();
Ok(hex::encode(hash))
}
pub fn compile_constraints<CS: ConstraintSystem<F>>(
self,
cs: &mut CS,
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) -> Result<ConstrainedValue<F, G>, CompilerError> {
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let path = self.main_file_path;
generate_constraints(cs, self.program, self.program_inputs.get_inputs()).map_err(|mut error| {
error.set_path(path);
error
})
}
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pub fn compile_test_constraints(self, cs: &mut TestConstraintSystem<F>) -> Result<(), CompilerError> {
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generate_test_constraints::<F, G>(cs, self.program)
}
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fn load_program(&mut self) -> Result<String, CompilerError> {
// Load the program syntax tree from the file path
Ok(LeoParser::load_file(&self.main_file_path)?)
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}
pub fn parse_program(&mut self, program_string: &str) -> Result<(), CompilerError> {
// Parse the program syntax tree
let syntax_tree = LeoParser::parse_file(&self.main_file_path, program_string)?;
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// Build program from syntax tree
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let package_name = self.package_name.clone();
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self.program = Program::from(syntax_tree, package_name);
self.program_inputs.set_inputs_size(self.program.expected_inputs.len());
self.program_imports = ProgramImports::from_program(&self.program)?;
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log::debug!("Program parsing complete\n{:#?}", self.program);
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Ok(())
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}
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pub fn parse_inputs(&mut self, inputs_string: &str) -> Result<(), CompilerError> {
let syntax_tree = LeoInputsParser::parse_file(&inputs_string)?;
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// Check number/order of parameters here
self.program_inputs = Inputs::from_inputs_file(syntax_tree, self.program.expected_inputs.clone())?;
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Ok(())
}
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pub fn to_bytes(&self) -> Result<Vec<u8>, CompilerError> {
Ok(bincode::serialize(&self.program)?)
}
pub fn from_bytes(bytes: &[u8]) -> Result<Self, CompilerError> {
let program: Program = bincode::deserialize(bytes)?;
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let mut program_inputs = Inputs::new();
program_inputs.set_inputs_size(program.expected_inputs.len());
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Ok(Self {
package_name: program.name.clone(),
main_file_path: PathBuf::new(),
program,
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program_inputs,
program_imports: ProgramImports::new(),
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output: None,
_engine: PhantomData,
})
}
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}
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impl<F: Field + PrimeField, G: GroupType<F>> ConstraintSynthesizer<F> for Compiler<F, G> {
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fn generate_constraints<CS: ConstraintSystem<F>>(self, cs: &mut CS) -> Result<(), SynthesisError> {
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let result =
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generate_constraints::<_, G, _>(cs, self.program, self.program_inputs.get_inputs()).map_err(|e| {
log::error!("{}", e);
SynthesisError::Unsatisfiable
})?;
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// Write results to file or something
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log::info!("{}", result);
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Ok(())
}
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}