//! This module provides the built-in trait implementations, e.g. to make
//! closures implement `Fn`.
use hir_def::{expr::Expr, lang_item::LangItemTarget, TraitId, TypeAliasId};
use hir_expand::name::name;
use ra_db::CrateId;

use super::{AssocTyValue, Impl};
use crate::{db::HirDatabase, ApplicationTy, Substs, TraitRef, Ty, TypeCtor};

pub(super) struct BuiltinImplData {
    pub num_vars: usize,
    pub trait_ref: TraitRef,
    pub where_clauses: Vec<super::GenericPredicate>,
    pub assoc_ty_values: Vec<AssocTyValue>,
}

pub(super) struct BuiltinImplAssocTyValueData {
    pub impl_: Impl,
    pub assoc_ty_id: TypeAliasId,
    pub num_vars: usize,
    pub value: Ty,
}

pub(super) fn get_builtin_impls(
    db: &impl HirDatabase,
    krate: CrateId,
    ty: &Ty,
    trait_: TraitId,
    mut callback: impl FnMut(Impl),
) {
    // Note: since impl_datum needs to be infallible, we need to make sure here
    // that we have all prerequisites to build the respective impls.
    if let Ty::Apply(ApplicationTy { ctor: TypeCtor::Closure { def, expr }, .. }) = ty {
        for &fn_trait in [super::FnTrait::FnOnce, super::FnTrait::FnMut, super::FnTrait::Fn].iter()
        {
            if let Some(actual_trait) = get_fn_trait(db, krate, fn_trait) {
                if trait_ == actual_trait {
                    let impl_ = super::ClosureFnTraitImplData { def: *def, expr: *expr, fn_trait };
                    if check_closure_fn_trait_impl_prerequisites(db, krate, impl_) {
                        callback(Impl::ClosureFnTraitImpl(impl_));
                    }
                }
            }
        }
    }
}

pub(super) fn impl_datum(db: &impl HirDatabase, krate: CrateId, impl_: Impl) -> BuiltinImplData {
    match impl_ {
        Impl::ImplBlock(_) => unreachable!(),
        Impl::ClosureFnTraitImpl(data) => closure_fn_trait_impl_datum(db, krate, data),
    }
}

pub(super) fn associated_ty_value(
    db: &impl HirDatabase,
    krate: CrateId,
    data: AssocTyValue,
) -> BuiltinImplAssocTyValueData {
    match data {
        AssocTyValue::TypeAlias(_) => unreachable!(),
        AssocTyValue::ClosureFnTraitImplOutput(data) => {
            closure_fn_trait_output_assoc_ty_value(db, krate, data)
        }
    }
}

fn check_closure_fn_trait_impl_prerequisites(
    db: &impl HirDatabase,
    krate: CrateId,
    data: super::ClosureFnTraitImplData,
) -> bool {
    // the respective Fn/FnOnce/FnMut trait needs to exist
    if get_fn_trait(db, krate, data.fn_trait).is_none() {
        return false;
    }

    // FIXME: there are more assumptions that we should probably check here:
    // the traits having no type params, FnOnce being a supertrait

    // the FnOnce trait needs to exist and have an assoc type named Output
    let fn_once_trait = match get_fn_trait(db, krate, super::FnTrait::FnOnce) {
        Some(t) => t,
        None => return false,
    };
    db.trait_data(fn_once_trait).associated_type_by_name(&name![Output]).is_some()
}

fn closure_fn_trait_impl_datum(
    db: &impl HirDatabase,
    krate: CrateId,
    data: super::ClosureFnTraitImplData,
) -> BuiltinImplData {
    // for some closure |X, Y| -> Z:
    // impl<T, U, V> Fn<(T, U)> for closure<fn(T, U) -> V> { Output = V }

    let trait_ = get_fn_trait(db, krate, data.fn_trait) // get corresponding fn trait
        // the existence of the Fn trait has been checked before
        .expect("fn trait for closure impl missing");

    let num_args: u16 = match &db.body(data.def.into())[data.expr] {
        Expr::Lambda { args, .. } => args.len() as u16,
        _ => {
            log::warn!("closure for closure type {:?} not found", data);
            0
        }
    };

    let arg_ty = Ty::apply(
        TypeCtor::Tuple { cardinality: num_args },
        Substs::builder(num_args as usize).fill_with_bound_vars(0).build(),
    );
    let sig_ty = Ty::apply(
        TypeCtor::FnPtr { num_args },
        Substs::builder(num_args as usize + 1).fill_with_bound_vars(0).build(),
    );

    let self_ty = Ty::apply_one(TypeCtor::Closure { def: data.def, expr: data.expr }, sig_ty);

    let trait_ref = TraitRef {
        trait_: trait_.into(),
        substs: Substs::build_for_def(db, trait_).push(self_ty).push(arg_ty).build(),
    };

    let output_ty_id = AssocTyValue::ClosureFnTraitImplOutput(data.clone());

    BuiltinImplData {
        num_vars: num_args as usize + 1,
        trait_ref,
        where_clauses: Vec::new(),
        assoc_ty_values: vec![output_ty_id],
    }
}

fn closure_fn_trait_output_assoc_ty_value(
    db: &impl HirDatabase,
    krate: CrateId,
    data: super::ClosureFnTraitImplData,
) -> BuiltinImplAssocTyValueData {
    let impl_ = Impl::ClosureFnTraitImpl(data.clone());

    let num_args: u16 = match &db.body(data.def.into())[data.expr] {
        Expr::Lambda { args, .. } => args.len() as u16,
        _ => {
            log::warn!("closure for closure type {:?} not found", data);
            0
        }
    };

    let output_ty = Ty::Bound(num_args.into());

    let fn_once_trait =
        get_fn_trait(db, krate, super::FnTrait::FnOnce).expect("assoc ty value should not exist");

    let output_ty_id = db
        .trait_data(fn_once_trait)
        .associated_type_by_name(&name![Output])
        .expect("assoc ty value should not exist");

    BuiltinImplAssocTyValueData {
        impl_,
        assoc_ty_id: output_ty_id,
        num_vars: num_args as usize + 1,
        value: output_ty,
    }
}

fn get_fn_trait(
    db: &impl HirDatabase,
    krate: CrateId,
    fn_trait: super::FnTrait,
) -> Option<TraitId> {
    let target = db.lang_item(krate, fn_trait.lang_item_name().into())?;
    match target {
        LangItemTarget::TraitId(t) => Some(t),
        _ => None,
    }
}