leo/compiler/src/compiler.rs

//! Compiles a Leo program from a file path.

use crate::{
    constraints::{generate_constraints, generate_test_constraints},
    errors::CompilerError,
    value::ConstrainedValue,
    GroupType,
    ImportParser,
};
use leo_ast::LeoParser;
use leo_inputs::LeoInputsParser;
use leo_types::{Inputs, MainInputs, Program};

use snarkos_errors::gadgets::SynthesisError;
use snarkos_models::{
    curves::{Field, PrimeField},
    gadgets::r1cs::{ConstraintSynthesizer, ConstraintSystem, TestConstraintSystem},
};

use sha2::{Digest, Sha256};
use std::{fs, marker::PhantomData, path::PathBuf};

#[derive(Clone)]
pub struct Compiler<F: Field + PrimeField, G: GroupType<F>> {
    package_name: String,
    main_file_path: PathBuf,
    program: Program,
    program_inputs: Inputs,
    imported_programs: ImportParser,
    output: Option<ConstrainedValue<F, G>>,
    _engine: PhantomData<F>,
}

impl<F: Field + PrimeField, G: GroupType<F>> Compiler<F, G> {
    pub fn new(package_name: String, main_file_path: PathBuf) -> Self {
        Self {
            package_name: package_name.clone(),
            main_file_path,
            program: Program::new(package_name),
            program_inputs: Inputs::new(),
            imported_programs: ImportParser::new(),
            output: None,
            _engine: PhantomData,
        }
    }

    /// Parses program files.
    /// Returns a compiler struct that stores the typed program abstract syntax trees (ast).
    pub fn parse_program_without_inputs(package_name: String, main_file_path: PathBuf) -> Result<Self, CompilerError> {
        let mut compiler = Self::new(package_name, main_file_path);

        let program_string = compiler.load_program()?;
        compiler.parse_program(&program_string)?;

        Ok(compiler)
    }

    /// Parses input, state, and program files.
    /// Returns a compiler struct that stores the typed inputs and typed program abstract syntax trees (ast).
    pub fn parse_program_with_inputs(
        package_name: String,
        main_file_path: PathBuf,
        inputs_string: &str,
        state_string: &str,
    ) -> Result<Self, CompilerError> {
        let mut compiler = Self::new(package_name, main_file_path);

        compiler.parse_inputs(inputs_string, state_string)?;

        let program_string = compiler.load_program()?;
        compiler.parse_program(&program_string)?;

        Ok(compiler)
    }

    /// Parse the input and state files.
    /// Stores a typed ast of all inputs to the program.
    pub fn parse_inputs(&mut self, inputs_string: &str, state_string: &str) -> Result<(), CompilerError> {
        let inputs_syntax_tree = LeoInputsParser::parse_file(&inputs_string)?;
        let state_syntax_tree = LeoInputsParser::parse_file(&state_string)?;

        self.program_inputs.parse_inputs(inputs_syntax_tree)?;
        self.program_inputs.parse_state(state_syntax_tree)?;

        Ok(())
    }

    /// Parse the program file and all associated import files.
    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)?;

        // Build program from syntax tree
        let package_name = self.package_name.clone();

        self.program = Program::from(syntax_tree, package_name);
        self.imported_programs = ImportParser::parse(&self.program)?;

        log::debug!("Program parsing complete\n{:#?}", self.program);

        Ok(())
    }

    /// Loads the program file at `main_file_path`.
    fn load_program(&mut self) -> Result<String, CompilerError> {
        Ok(LeoParser::load_file(&self.main_file_path)?)
    }

    /// Manually set the inputs to the `main` program function.
    pub fn set_main_inputs(&mut self, program_inputs: MainInputs) {
        self.program_inputs.set_main_inputs(program_inputs);
    }

    pub fn checksum(&self) -> Result<String, 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()))?;

        // Hash the file contents
        let mut hasher = Sha256::new();
        hasher.update(unparsed_file.as_bytes());
        let hash = hasher.finalize();

        Ok(hex::encode(hash))
    }

    /// Synthesizes the circuit without program inputs to verify correctness.
    pub fn compile_constraints<CS: ConstraintSystem<F>>(
        self,
        cs: &mut CS,
    ) -> Result<ConstrainedValue<F, G>, CompilerError> {
        let path = self.main_file_path;
        let inputs = self.program_inputs.empty();

        generate_constraints(cs, self.program, inputs, &self.imported_programs).map_err(|mut error| {
            error.set_path(path);

            error
        })
    }

    /// Synthesizes the circuit for test functions with program inputs.
    pub fn compile_test_constraints(self, cs: &mut TestConstraintSystem<F>) -> Result<(), CompilerError> {
        generate_test_constraints::<F, G>(cs, self.program, self.program_inputs, &self.imported_programs)
    }

    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)?;
        let program_inputs = Inputs::new();

        Ok(Self {
            package_name: program.name.clone(),
            main_file_path: PathBuf::new(),
            program,
            program_inputs,
            imported_programs: ImportParser::new(),
            output: None,
            _engine: PhantomData,
        })
    }
}

impl<F: Field + PrimeField, G: GroupType<F>> ConstraintSynthesizer<F> for Compiler<F, G> {
    /// Synthesizes the circuit with program inputs.
    fn generate_constraints<CS: ConstraintSystem<F>>(self, cs: &mut CS) -> Result<(), SynthesisError> {
        let result = generate_constraints::<_, G, _>(cs, self.program, self.program_inputs, &self.imported_programs)
            .map_err(|e| {
                log::error!("{}", e);
                SynthesisError::Unsatisfiable
            })?;

        // Write results to file or something
        log::info!("{}", result);

        Ok(())
    }
}
fix imports 2020-05-06 04:40:25 +03:00			`//! Compiles a Leo program from a file path.`

refactor integer module, add uint8 type 2020-05-07 03:22:00 +03:00			`use crate::{`
create value module 2020-07-08 05:11:26 +03:00			`constraints::{generate_constraints, generate_test_constraints},`
impl compiler error handling 2020-05-09 02:35:00 +03:00			`errors::CompilerError,`
create value module 2020-07-08 05:11:26 +03:00			`value::ConstrainedValue,`
Migrates program 2020-06-08 06:57:22 +03:00			`GroupType,`
fix import module 2020-07-08 07:05:03 +03:00			`ImportParser,`
refactor integer module, add uint8 type 2020-05-07 03:22:00 +03:00			`};`
Introduces LeoParser, removes pest for leo-compiler 2020-06-08 08:21:31 +03:00			`use leo_ast::LeoParser;`
initial private boolean input support 2020-06-10 02:36:15 +03:00			`use leo_inputs::LeoInputsParser;`
compiler successfully parsing record, registers, state, state_leaf variables with access 2020-07-29 10:18:19 +03:00			`use leo_types::{Inputs, MainInputs, Program};`
Adds command 2020-04-25 11:47:10 +03:00
			`use snarkos_errors::gadgets::SynthesisError;`
			`use snarkos_models::{`
remove snarkos group trait from compiler 2020-05-30 01:55:57 +03:00			`curves::{Field, PrimeField},`
add test syntax and cli command 2020-06-05 03:39:57 +03:00			`gadgets::r1cs::{ConstraintSynthesizer, ConstraintSystem, TestConstraintSystem},`
Adds command 2020-04-25 11:47:10 +03:00			`};`

impl 0, 1 or more return arg 2020-05-04 21:40:29 +03:00			`use sha2::{Digest, Sha256};`
impl if else conditional statements 2020-04-28 00:36:05 +03:00			`use std::{fs, marker::PhantomData, path::PathBuf};`
Adds command 2020-04-25 11:47:10 +03:00
Optimize implementation to use subcommands 2020-04-26 04:11:49 +03:00			`#[derive(Clone)]`
convert leo-inputs to span with errors. fix tests 2020-06-20 09:02:58 +03:00			`pub struct Compiler<F: Field + PrimeField, G: GroupType<F>> {`
Adds starter integration tests for u32 2020-05-02 08:10:40 +03:00			`package_name: String,`
Adds command 2020-04-25 11:47:10 +03:00			`main_file_path: PathBuf,`
remove trait parameters from program types 2020-06-02 22:33:24 +03:00			`program: Program,`
convert leo-inputs to span with errors. fix tests 2020-06-20 09:02:58 +03:00			`program_inputs: Inputs,`
fix import module 2020-07-08 07:05:03 +03:00			`imported_programs: ImportParser,`
simplify GroupType trait parameters 2020-06-02 03:52:33 +03:00			`output: Option<ConstrainedValue<F, G>>,`
Adds command 2020-04-25 11:47:10 +03:00			`_engine: PhantomData<F>,`
			`}`

convert leo-inputs to span with errors. fix tests 2020-06-20 09:02:58 +03:00			`impl<F: Field + PrimeField, G: GroupType<F>> Compiler<F, G> {`
add parsing for .in and .state files and update errors 2020-07-29 23:20:44 +03:00			`pub fn new(package_name: String, main_file_path: PathBuf) -> Self {`
use include_bytes for boolean test 2020-06-09 03:28:09 +03:00			`Self {`
move error struct to types. fix integer namespaces 2020-06-21 01:24:46 +03:00			`package_name: package_name.clone(),`
add parsing for .in and .state files and update errors 2020-07-29 23:20:44 +03:00			`main_file_path,`
move error struct to types. fix integer namespaces 2020-06-21 01:24:46 +03:00			`program: Program::new(package_name),`
initial private boolean input support 2020-06-10 02:36:15 +03:00			`program_inputs: Inputs::new(),`
fix import module 2020-07-08 07:05:03 +03:00			`imported_programs: ImportParser::new(),`
use include_bytes for boolean test 2020-06-09 03:28:09 +03:00			`output: None,`
			`_engine: PhantomData,`
			`}`
			`}`

add parsing for .in and .state files and update errors 2020-07-29 23:20:44 +03:00			`/// Parses program files.`
			`/// Returns a compiler struct that stores the typed program abstract syntax trees (ast).`
			`pub fn parse_program_without_inputs(package_name: String, main_file_path: PathBuf) -> Result<Self, CompilerError> {`
			`let mut compiler = Self::new(package_name, main_file_path);`

			`let program_string = compiler.load_program()?;`
			`compiler.parse_program(&program_string)?;`

			`Ok(compiler)`
			`}`

			`/// Parses input, state, and program files.`
			`/// Returns a compiler struct that stores the typed inputs and typed program abstract syntax trees (ast).`
			`pub fn parse_program_with_inputs(`
parse input file before program file 2020-07-29 06:46:26 +03:00			`package_name: String,`
			`main_file_path: PathBuf,`
			`inputs_string: &str,`
add parsing for .in and .state files and update errors 2020-07-29 23:20:44 +03:00			`state_string: &str,`
parse input file before program file 2020-07-29 06:46:26 +03:00			`) -> Result<Self, CompilerError> {`
add parsing for .in and .state files and update errors 2020-07-29 23:20:44 +03:00			`let mut compiler = Self::new(package_name, main_file_path);`
Fixes 'leo build' to compile programs again. Updates tests to run on new model 2020-05-17 08:05:26 +03:00
add parsing for .in and .state files and update errors 2020-07-29 23:20:44 +03:00			`compiler.parse_inputs(inputs_string, state_string)?;`
parse input file before program file 2020-07-29 06:46:26 +03:00
serialize program into bytes file 2020-06-25 07:05:11 +03:00			`let program_string = compiler.load_program()?;`
			`compiler.parse_program(&program_string)?;`
Fixes 'leo build' to compile programs again. Updates tests to run on new model 2020-05-17 08:05:26 +03:00
serialize program into bytes file 2020-06-25 07:05:11 +03:00			`Ok(compiler)`
Adds command 2020-04-25 11:47:10 +03:00			`}`

add parsing for .in and .state files and update errors 2020-07-29 23:20:44 +03:00			`/// Parse the input and state files.`
			`/// Stores a typed ast of all inputs to the program.`
			`pub fn parse_inputs(&mut self, inputs_string: &str, state_string: &str) -> Result<(), CompilerError> {`
			`let inputs_syntax_tree = LeoInputsParser::parse_file(&inputs_string)?;`
			`let state_syntax_tree = LeoInputsParser::parse_file(&state_string)?;`
move error struct to types. fix integer namespaces 2020-06-21 01:24:46 +03:00
add parsing for .in and .state files and update errors 2020-07-29 23:20:44 +03:00			`self.program_inputs.parse_inputs(inputs_syntax_tree)?;`
			`self.program_inputs.parse_state(state_syntax_tree)?;`
public input booleans and integers 2020-06-11 02:14:55 +03:00
add parsing for .in and .state files and update errors 2020-07-29 23:20:44 +03:00			`Ok(())`
compiler successfully parsing record, registers, state, state_leaf variables with access 2020-07-29 10:18:19 +03:00			`}`

add parsing for .in and .state files and update errors 2020-07-29 23:20:44 +03:00			`/// Parse the program file and all associated import files.`
compiler successfully parsing record, registers, state, state_leaf variables with access 2020-07-29 10:18:19 +03:00			`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)?;`

			`// Build program from syntax tree`
			`let package_name = self.package_name.clone();`

			`self.program = Program::from(syntax_tree, package_name);`
			`self.imported_programs = ImportParser::parse(&self.program)?;`

			`log::debug!("Program parsing complete\n{:#?}", self.program);`

			`Ok(())`
			`}`

add parsing for .in and .state files and update errors 2020-07-29 23:20:44 +03:00			/// Loads the program file at `main_file_path`.
			`fn load_program(&mut self) -> Result<String, CompilerError> {`
			`Ok(LeoParser::load_file(&self.main_file_path)?)`
			`}`
compiler successfully parsing record, registers, state, state_leaf variables with access 2020-07-29 10:18:19 +03:00
add parsing for .in and .state files and update errors 2020-07-29 23:20:44 +03:00			/// Manually set the inputs to the `main` program function.
			`pub fn set_main_inputs(&mut self, program_inputs: MainInputs) {`
			`self.program_inputs.set_main_inputs(program_inputs);`
compiler successfully parsing record, registers, state, state_leaf variables with access 2020-07-29 10:18:19 +03:00			`}`

Implements caching of builds and setups for reusable work 2020-05-03 06:10:22 +03:00			`pub fn checksum(&self) -> Result<String, CompilerError> {`
			`// Read in the main file as string`
impl 0, 1 or more return arg 2020-05-04 21:40:29 +03:00			`let unparsed_file = fs::read_to_string(&self.main_file_path)`
			`.map_err(\|_\| CompilerError::FileReadError(self.main_file_path.clone()))?;`
Implements caching of builds and setups for reusable work 2020-05-03 06:10:22 +03:00
			`// Hash the file contents`
			`let mut hasher = Sha256::new();`
use updated sha2 functions 2020-06-30 00:11:12 +03:00			`hasher.update(unparsed_file.as_bytes());`
			`let hash = hasher.finalize();`
Implements caching of builds and setups for reusable work 2020-05-03 06:10:22 +03:00
			`Ok(hex::encode(hash))`
			`}`

add parsing for .in and .state files and update errors 2020-07-29 23:20:44 +03:00			`/// Synthesizes the circuit without program inputs to verify correctness.`
Fixes 'leo build' to compile programs again. Updates tests to run on new model 2020-05-17 08:05:26 +03:00			`pub fn compile_constraints<CS: ConstraintSystem<F>>(`
			`self,`
			`cs: &mut CS,`
simplify GroupType trait parameters 2020-06-02 03:52:33 +03:00			`) -> Result<ConstrainedValue<F, G>, CompilerError> {`
add file path to formatted errors 2020-06-23 08:32:57 +03:00			`let path = self.main_file_path;`
parse input file before program file 2020-07-29 06:46:26 +03:00			`let inputs = self.program_inputs.empty();`
fix nested import parsing bug 2020-07-02 07:43:06 +03:00
resolve all definitions prior to program execution 2020-07-02 13:56:52 +03:00			`generate_constraints(cs, self.program, inputs, &self.imported_programs).map_err(\|mut error\| {`
add file path to formatted errors 2020-06-23 08:32:57 +03:00			`error.set_path(path);`

			`error`
			`})`
Fixes 'leo build' to compile programs again. Updates tests to run on new model 2020-05-17 08:05:26 +03:00			`}`

add parsing for .in and .state files and update errors 2020-07-29 23:20:44 +03:00			`/// Synthesizes the circuit for test functions with program inputs.`
cargo fmt 2020-06-08 09:30:39 +03:00			`pub fn compile_test_constraints(self, cs: &mut TestConstraintSystem<F>) -> Result<(), CompilerError> {`
parse input file before program file 2020-07-29 06:46:26 +03:00			`generate_test_constraints::<F, G>(cs, self.program, self.program_inputs, &self.imported_programs)`
add test syntax and cli command 2020-06-05 03:39:57 +03:00			`}`

serialize program into bytes file 2020-06-25 07:05:11 +03:00			`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)?;`
compiler successfully parsing record, registers, state, state_leaf variables with access 2020-07-29 10:18:19 +03:00			`let program_inputs = Inputs::new();`
set inputs size from bytes 2020-06-25 07:40:17 +03:00
serialize program into bytes file 2020-06-25 07:05:11 +03:00			`Ok(Self {`
			`package_name: program.name.clone(),`
			`main_file_path: PathBuf::new(),`
			`program,`
set inputs size from bytes 2020-06-25 07:40:17 +03:00			`program_inputs,`
fix import module 2020-07-08 07:05:03 +03:00			`imported_programs: ImportParser::new(),`
serialize program into bytes file 2020-06-25 07:05:11 +03:00			`output: None,`
			`_engine: PhantomData,`
			`})`
			`}`
Adds starter integration tests for u32 2020-05-02 08:10:40 +03:00			`}`
Adds command 2020-04-25 11:47:10 +03:00
convert leo-inputs to span with errors. fix tests 2020-06-20 09:02:58 +03:00			`impl<F: Field + PrimeField, G: GroupType<F>> ConstraintSynthesizer<F> for Compiler<F, G> {`
add parsing for .in and .state files and update errors 2020-07-29 23:20:44 +03:00			`/// Synthesizes the circuit with program inputs.`
cargo fmt 2020-06-08 09:30:39 +03:00			`fn generate_constraints<CS: ConstraintSystem<F>>(self, cs: &mut CS) -> Result<(), SynthesisError> {`
parse input file before program file 2020-07-29 06:46:26 +03:00			`let result = generate_constraints::<_, G, _>(cs, self.program, self.program_inputs, &self.imported_programs)`
			`.map_err(\|e\| {`
			`log::error!("{}", e);`
			`SynthesisError::Unsatisfiable`
			`})?;`
refactor main function parameters 2020-05-06 03:24:34 +03:00
			`// Write results to file or something`
add square root example 2020-06-23 07:39:24 +03:00			`log::info!("{}", result);`
refactor main function parameters 2020-05-06 03:24:34 +03:00
Adds command 2020-04-25 11:47:10 +03:00			`Ok(())`
			`}`
impl if else conditional statements 2020-04-28 00:36:05 +03:00			`}`