leo/compiler/tests/mod.rs

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pub mod address;
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pub mod array;
pub mod boolean;
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pub mod circuits;
pub mod field;
// pub mod function;
// pub mod group;
// pub mod import;
// pub mod inputs;
// pub mod integers;
// pub mod macros;
// pub mod mutability;
// pub mod statements;
// pub mod syntax;
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use leo_compiler::{
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compiler::Compiler,
errors::CompilerError,
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group::targets::edwards_bls12::EdwardsGroupType,
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ConstrainedValue,
OutputBytes,
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};
use leo_types::{InputValue, MainInputs};
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use snarkos_curves::edwards_bls12::Fq;
use snarkos_models::gadgets::r1cs::TestConstraintSystem;
use std::path::PathBuf;
pub const TEST_OUTPUTS_DIRECTORY: &str = "/outputs/";
pub const TEST_OUTPUTS_FILE_NAME: &str = "/outputs/test.out";
const EMPTY_FILE: &str = "";
pub type EdwardsTestCompiler = Compiler<Fq, EdwardsGroupType>;
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pub type EdwardsConstrainedValue = ConstrainedValue<Fq, EdwardsGroupType>;
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pub fn parse_program_with_inputs(
program_bytes: &[u8],
input_bytes: &[u8],
) -> Result<EdwardsTestCompiler, CompilerError> {
let mut compiler = new_compiler();
let program_string = String::from_utf8_lossy(program_bytes);
let inputs_string = String::from_utf8_lossy(input_bytes);
compiler.parse_inputs(&inputs_string, EMPTY_FILE)?;
compiler.parse_program(&program_string)?;
Ok(compiler)
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}
fn new_compiler() -> EdwardsTestCompiler {
let program_name = "test".to_string();
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let path = PathBuf::from("/test/src/main.leo");
let outputs_dir = PathBuf::from(TEST_OUTPUTS_DIRECTORY);
EdwardsTestCompiler::new(program_name, path, outputs_dir)
}
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pub(crate) fn parse_program(bytes: &[u8]) -> Result<EdwardsTestCompiler, CompilerError> {
let mut compiler = new_compiler();
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let program_string = String::from_utf8_lossy(bytes);
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compiler.parse_program(&program_string)?;
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Ok(compiler)
}
// pub(crate) fn parse_inputs(bytes: &[u8]) -> Result<EdwardsTestCompiler, CompilerError> {
// let mut compiler = new_compiler();
// let inputs_string = String::from_utf8_lossy(bytes);
//
// compiler.parse_inputs(&inputs_string, "")?;
//
// Ok(compiler)
// }
pub(crate) fn get_outputs(program: EdwardsTestCompiler) -> OutputBytes {
// synthesize the circuit on the test constraint system
let mut cs = TestConstraintSystem::<Fq>::new();
let output = program.generate_constraints_helper(&mut cs).unwrap();
// assert the constraint system is satisfied
assert!(cs.is_satisfied());
output
}
pub(crate) fn assert_satisfied(program: EdwardsTestCompiler) {
let empty_output_bytes = include_bytes!("compiler_outputs/empty.out");
let res = get_outputs(program);
// assert that the output is empty
assert_eq!(empty_output_bytes, res.bytes().as_slice());
}
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pub(crate) fn expect_compiler_error(program: EdwardsTestCompiler) -> CompilerError {
let mut cs = TestConstraintSystem::<Fq>::new();
program.generate_constraints_helper(&mut cs).unwrap_err()
}
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pub(crate) fn expect_synthesis_error(program: EdwardsTestCompiler) {
let mut cs = TestConstraintSystem::<Fq>::new();
let _output = program.generate_constraints_helper(&mut cs).unwrap();
assert!(!cs.is_satisfied());
}
// pub(crate) fn fail_enforce(program: EdwardsTestCompiler) {
// match get_compiler_error(program) {
// CompilerError::FunctionError(FunctionError::StatementError(StatementError::Error(_))) => {}
// error => panic!("Expected evaluate error, got {}", error),
// }
// }
pub(crate) fn generate_main_inputs(inputs: Vec<(&str, Option<InputValue>)>) -> MainInputs {
let mut main_inputs = MainInputs::new();
for (name, value) in inputs {
main_inputs.insert(name.to_string(), value);
}
main_inputs
}