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#[cfg(not(test))]
use assert_eq as assert_eq_pretty;
#[cfg(test)]
use pretty_assertions::assert_eq as assert_eq_pretty;
macro_rules! assert_eq_display {
($left:expr, $right:expr) => {{
match (&$left, &$right) {
(left_val, right_val) => {
if !(*left_val == *right_val) {
panic!(
r#"assertion failed: `(left == right)`
left: `{}`,
right: `{}`"#,
left_val, right_val
)
}
}
}
}};
}
/// Wrapper around string slice that makes debug output `{:?}` to print string same way as `{}`.
/// Used in different `assert*!` macros in combination with `pretty_assertions` crate to make
/// test failures to show nice diffs.
#[derive(PartialEq, Eq)]
#[doc(hidden)]
pub struct PrettyString(String);
/// Make diff to display string as multi-line string
impl std::fmt::Debug for PrettyString {
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
f.write_str(&self.0)
}
}
macro_rules! assert_eq_pretty_str {
($left:expr, $right:expr) => {
assert_eq_pretty!(
PrettyString($left.to_string()),
PrettyString($right.to_string())
);
};
}
use std::fs::File;
use std::io::{Read, Write};
use std::path::PathBuf;
use crate::error::{Error, Result};
use crate::semantics::phase::Parsed;
#[allow(dead_code)]
#[derive(Clone)]
pub enum Test<'a> {
ParserSuccess(&'a str, &'a str),
ParserFailure(&'a str),
Printer(&'a str, &'a str),
BinaryEncoding(&'a str, &'a str),
BinaryDecodingSuccess(&'a str, &'a str),
BinaryDecodingFailure(&'a str),
ImportSuccess(&'a str, &'a str),
ImportFailure(&'a str),
TypeInferenceSuccess(&'a str, &'a str),
TypeInferenceFailure(&'a str),
TypeError(&'a str),
Normalization(&'a str, &'a str),
AlphaNormalization(&'a str, &'a str),
}
fn parse_file_str(file_path: &str) -> Result<Parsed> {
Parsed::parse_file(&PathBuf::from(file_path))
}
#[allow(dead_code)]
pub fn run_test_stringy_error(
test: Test<'_>,
) -> std::result::Result<(), String> {
run_test(test).map_err(|e| e.to_string()).map(|_| ())
}
pub fn run_test(test: Test<'_>) -> Result<()> {
use self::Test::*;
match test {
ParserSuccess(expr_file_path, expected_file_path) => {
let expr = parse_file_str(&expr_file_path)?;
// This exercices both parsing and binary decoding
// Compare parse/decoded
let expected =
Parsed::parse_binary_file(&PathBuf::from(expected_file_path))?;
assert_eq_pretty!(expr, expected);
}
ParserFailure(file_path) => {
let err = parse_file_str(&file_path).unwrap_err();
match &err {
Error::Parse(_) => {}
Error::IO(e) if e.kind() == std::io::ErrorKind::InvalidData => {
}
e => panic!("Expected parse error, got: {:?}", e),
}
}
BinaryEncoding(expr_file_path, expected_file_path) => {
let expr = parse_file_str(&expr_file_path)?;
let mut expected_data = Vec::new();
{
File::open(&PathBuf::from(&expected_file_path))?
.read_to_end(&mut expected_data)?;
}
let expr_data = expr.encode()?;
// Compare bit-by-bit
if expr_data != expected_data {
// use std::io::Write;
// File::create(&expected_file_path)?.write_all(&expr_data)?;
// Pretty-print difference
assert_eq_pretty!(
serde_cbor::de::from_slice::<serde_cbor::value::Value>(
&expr_data
)
.unwrap(),
serde_cbor::de::from_slice::<serde_cbor::value::Value>(
&expected_data
)
.unwrap()
);
// If difference was not visible in the cbor::Value
assert_eq!(expr_data, expected_data);
}
}
BinaryDecodingSuccess(expr_file_path, expected_file_path) => {
let expr =
Parsed::parse_binary_file(&PathBuf::from(expr_file_path))?;
let expected = parse_file_str(&expected_file_path)?;
assert_eq_pretty!(expr, expected);
}
BinaryDecodingFailure(file_path) => {
Parsed::parse_binary_file(&PathBuf::from(file_path)).unwrap_err();
}
Printer(expr_file_path, _) => {
let expected = parse_file_str(&expr_file_path)?;
// Round-trip pretty-printer
let expr: Parsed = Parsed::parse_str(&expected.to_string())?;
assert_eq!(expr, expected);
}
ImportSuccess(expr_file_path, expected_file_path) => {
let expr = parse_file_str(&expr_file_path)?
.resolve()?
.typecheck()?
.normalize();
let expected = parse_file_str(&expected_file_path)?
.resolve()?
.typecheck()?
.normalize();
assert_eq_display!(expr, expected);
}
ImportFailure(file_path) => {
parse_file_str(&file_path)?.resolve().unwrap_err();
}
TypeInferenceSuccess(expr_file_path, expected_file_path) => {
let expr =
parse_file_str(&expr_file_path)?.resolve()?.typecheck()?;
let ty = expr.get_type()?.to_expr();
// let expr = parse_file_str(&expr_file_path)?.resolve()?.to_expr();
// let tyexpr = crate::semantics::nze::nzexpr::typecheck(expr)?;
// let ty = tyexpr.get_type()?.to_expr();
let expected = parse_file_str(&expected_file_path)?.to_expr();
assert_eq_display!(ty, expected);
}
TypeInferenceFailure(file_path) => {
let mut res =
parse_file_str(&file_path)?.skip_resolve()?.typecheck();
if let Ok(e) = &res {
// If e did typecheck, check that get_type fails
res = e.get_type();
}
res.unwrap_err();
}
// Checks the output of the type error against a text file. If the text file doesn't exist,
// we instead write to it the output we got. This makes it easy to update those files: just
// `rm -r dhall/tests/type-errors` and run the tests again.
TypeError(file_path) => {
let mut res =
parse_file_str(&file_path)?.skip_resolve()?.typecheck();
let file_path = PathBuf::from(file_path);
let error_file_path = file_path
.strip_prefix("../dhall-lang/tests/type-inference/failure/")
.unwrap();
let error_file_path =
PathBuf::from("tests/type-errors/").join(error_file_path);
let error_file_path = error_file_path.with_extension("txt");
if let Ok(e) = &res {
// If e did typecheck, check that get_type fails
res = e.get_type();
}
let err: Error = res.unwrap_err().into();
if error_file_path.is_file() {
let expected_msg = std::fs::read_to_string(error_file_path)?;
let msg = format!("{}\n", err);
assert_eq_pretty_str!(msg, expected_msg);
} else {
std::fs::create_dir_all(error_file_path.parent().unwrap())?;
let mut file = File::create(error_file_path)?;
writeln!(file, "{}", err)?;
}
}
Normalization(expr_file_path, expected_file_path) => {
// let expr = parse_file_str(&expr_file_path)?
// .resolve()?
// .typecheck()?
// .normalize()
// .to_expr();
let expr = parse_file_str(&expr_file_path)?
.resolve()?
.typecheck()?
.to_value()
.to_tyexpr_noenv()
.normalize_whnf_noenv()
.to_expr(crate::semantics::phase::ToExprOptions {
alpha: false,
normalize: true,
});
// let expr = parse_file_str(&expr_file_path)?.resolve()?.to_expr();
// let expr = crate::semantics::nze::nzexpr::typecheck(expr)?
// .normalize()
// .to_expr();
let expected = parse_file_str(&expected_file_path)?.to_expr();
assert_eq_display!(expr, expected);
}
AlphaNormalization(expr_file_path, expected_file_path) => {
let expr = parse_file_str(&expr_file_path)?
.resolve()?
.typecheck()?
.normalize()
.to_expr_alpha();
let expected = parse_file_str(&expected_file_path)?.to_expr();
assert_eq_display!(expr, expected);
}
}
Ok(())
}
#[cfg(test)]
mod spec {
macro_rules! make_spec_test {
($type:expr, $name:ident) => {
#[test]
#[allow(non_snake_case)]
fn $name() {
use crate::tests::Test::*;
use crate::tests::*;
match run_test_stringy_error($type) {
Ok(_) => {}
Err(s) => panic!(s),
}
}
};
}
// See build.rs
include!(concat!(env!("OUT_DIR"), "/spec_tests.rs"));
}
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