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path: root/dhall/src/phase/resolve.rs
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use std::collections::HashMap;
use std::path::{Path, PathBuf};

use crate::error::{Error, ImportError};
use crate::phase::{Normalized, NormalizedExpr, Parsed, Resolved};

type Import = dhall_syntax::Import<NormalizedExpr>;

/// A root from which to resolve relative imports.
#[derive(Debug, Clone, PartialEq, Eq)]
pub(crate) enum ImportRoot {
    LocalDir(PathBuf),
}

type ImportCache = HashMap<Import, Normalized>;

pub(crate) type ImportStack = Vec<Import>;

fn resolve_import(
    import: &Import,
    root: &ImportRoot,
    import_cache: &mut ImportCache,
    import_stack: &ImportStack,
) -> Result<Normalized, ImportError> {
    use self::ImportRoot::*;
    use dhall_syntax::FilePrefix::*;
    use dhall_syntax::ImportLocation::*;
    let cwd = match root {
        LocalDir(cwd) => cwd,
    };
    match &import.location {
        Local(prefix, path) => {
            let path: PathBuf = path.iter().cloned().collect();
            let path = match prefix {
                // TODO: fail gracefully
                Parent => cwd.parent().unwrap().join(path),
                Here => cwd.join(path),
                _ => unimplemented!("{:?}", import),
            };
            Ok(load_import(&path, import_cache, import_stack).map_err(|e| {
                ImportError::Recursive(import.clone(), Box::new(e))
            })?)
        }
        _ => unimplemented!("{:?}", import),
    }
}

fn load_import(
    f: &Path,
    import_cache: &mut ImportCache,
    import_stack: &ImportStack,
) -> Result<Normalized, Error> {
    Ok(
        do_resolve_expr(Parsed::parse_file(f)?, import_cache, import_stack)?
            .typecheck()?
            .normalize(),
    )
}

fn do_resolve_expr(
    parsed: Parsed,
    import_cache: &mut ImportCache,
    import_stack: &ImportStack,
) -> Result<Resolved, ImportError> {
    let Parsed(mut expr, root) = parsed;
    let mut resolve = |import: Import| -> Result<Normalized, ImportError> {
        if import_stack.contains(&import) {
            return Err(ImportError::ImportCycle(import_stack.clone(), import));
        }
        match import_cache.get(&import) {
            Some(expr) => Ok(expr.clone()),
            None => {
                // Copy the import stack and push the current import
                let mut import_stack = import_stack.clone();
                import_stack.push(import.clone());

                // Resolve the import recursively
                let expr = resolve_import(
                    &import,
                    &root,
                    import_cache,
                    &import_stack,
                )?;

                // Add the import to the cache
                import_cache.insert(import, expr.clone());
                Ok(expr)
            }
        }
    };
    expr.traverse_resolve_mut(&mut resolve)?;
    Ok(Resolved(expr))
}

pub(crate) fn resolve(e: Parsed) -> Result<Resolved, ImportError> {
    do_resolve_expr(e, &mut HashMap::new(), &Vec::new())
}

pub(crate) fn skip_resolve_expr(
    parsed: Parsed,
) -> Result<Resolved, ImportError> {
    let mut expr = parsed.0;
    let mut resolve = |import: Import| -> Result<Normalized, ImportError> {
        Err(ImportError::UnexpectedImport(import))
    };
    expr.traverse_resolve_mut(&mut resolve)?;
    Ok(Resolved(expr))
}

#[cfg(test)]
#[rustfmt::skip]
mod spec_tests {
    macro_rules! import_success {
        ($name:ident, $path:expr) => {
            make_spec_test!(
                ImportSuccess(
                    &("../dhall-lang/tests/import/success/".to_owned() + $path + "A.dhall"),
                    &("../dhall-lang/tests/import/success/".to_owned() + $path + "B.dhall")
                ),
                $name
            );
        };
    }

    // macro_rules! import_failure {
    //     ($name:ident, $path:expr) => {
    //         make_spec_test!(
    //             ImportFailure(&("../dhall-lang/tests/import/failure/".to_owned() + $path + ".dhall")),
    //             $name
    //         );
    //     };
    // }

    // import_success!(success_alternativeEnvNatural, "alternativeEnvNatural");
    // import_success!(success_alternativeEnvSimple, "alternativeEnvSimple");
    // import_success!(success_alternativeHashMismatch, "alternativeHashMismatch");
    import_success!(success_alternativeNatural, "alternativeNatural");
    import_success!(success_alternativeParseError, "alternativeParseError");
    import_success!(success_alternativeTypeError, "alternativeTypeError");
    // import_success!(success_asLocation, "asLocation");
    // import_success!(success_asText, "asText");
    // import_success!(success_customHeaders, "customHeaders");
    import_success!(success_fieldOrder, "fieldOrder");
    // note: this one needs special setup with env variables
    // import_success!(success_hashFromCache, "hashFromCache");
    // import_success!(success_headerForwarding, "headerForwarding");
    // import_success!(success_nestedHash, "nestedHash");
    // import_success!(success_noHeaderForwarding, "noHeaderForwarding");
    // import_failure!(failure_alternativeEnv, "alternativeEnv");
    // import_failure!(failure_alternativeEnvMissing, "alternativeEnvMissing");
    // import_failure!(failure_cycle, "cycle");
    // import_failure!(failure_hashMismatch, "hashMismatch");
    // import_failure!(failure_missing, "missing");
    // import_failure!(failure_referentiallyInsane, "referentiallyInsane");
}