// Searching for information from the cstore

import std::{ebml};
import syntax::ast;
import syntax::ast_util;
import syntax::ast_map;
import middle::ty;
import option::{some, none};
import syntax::diagnostic::span_handler;
import syntax::diagnostic::expect;
import common::*;
import std::map::hashmap;

export class_dtor;
export get_symbol;
export get_class_fields;
export get_class_method;
export get_field_type;
export get_type_param_count;
export lookup_defs;
export lookup_method_purity;
export get_enum_variants;
export get_impls_for_mod;
export get_iface_methods;
export get_type;
export get_impl_iface;
export get_impl_method;
export get_item_path;
export maybe_get_item_ast, found_ast, found, found_parent, not_found;

fn get_symbol(cstore: cstore::cstore, def: ast::def_id) -> str {
    let cdata = cstore::get_crate_data(cstore, def.crate).data;
    ret decoder::get_symbol(cdata, def.node);
}

fn get_type_param_count(cstore: cstore::cstore, def: ast::def_id) -> uint {
    let cdata = cstore::get_crate_data(cstore, def.crate).data;
    ret decoder::get_type_param_count(cdata, def.node);
}

fn lookup_defs(cstore: cstore::cstore, cnum: ast::crate_num,
               path: [ast::ident]/~) -> [ast::def]/~ {
    let mut result = []/~;
    #debug("lookup_defs: path = %? cnum = %?", path, cnum);
    for resolve_path(cstore, cnum, path).each {|elt|
        let (c, data, def) = elt;
        vec::push(result, decoder::lookup_def(c, data, def));
    }
    ret result;
}

fn lookup_method_purity(cstore: cstore::cstore, did: ast::def_id)
    -> ast::purity {
    let cdata = cstore::get_crate_data(cstore, did.crate).data;
    alt check decoder::lookup_def(did.crate, cdata, did) {
      ast::def_fn(_, p) { p }
    }
}

/* Returns a vector of possible def IDs for a given path,
   in a given crate */
fn resolve_path(cstore: cstore::cstore, cnum: ast::crate_num,
                path: [ast::ident]/~) ->
    [(ast::crate_num, @[u8]/~, ast::def_id)]/~ {
    let cm = cstore::get_crate_data(cstore, cnum);
    #debug("resolve_path %s in crates[%d]:%s",
           ast_util::path_name_i(path), cnum, cm.name);
    let mut result = []/~;
    for decoder::resolve_path(path, cm.data).each {|def|
        if def.crate == ast::local_crate {
            vec::push(result, (cnum, cm.data, def));
        } else {
            if cm.cnum_map.contains_key(def.crate) {
                // This reexport is itself a reexport from another crate
                let next_cnum = cm.cnum_map.get(def.crate);
                let next_cm_data = cstore::get_crate_data(cstore, next_cnum);
                vec::push(result, (next_cnum, next_cm_data.data, def));
            }
        }
    }
    ret result;
}

fn get_item_path(tcx: ty::ctxt, def: ast::def_id) -> ast_map::path {
    let cstore = tcx.cstore;
    let cdata = cstore::get_crate_data(cstore, def.crate);
    let path = decoder::get_item_path(cdata, def.node);

    // FIXME #1920: This path is not always correct if the crate is not linked
    // into the root namespace.
    [ast_map::path_mod(@cdata.name)]/~ + path
}

enum found_ast {
    found(ast::inlined_item),
    found_parent(ast::def_id, ast::inlined_item),
    not_found,
}

// Finds the AST for this item in the crate metadata, if any.  If the item was
// not marked for inlining, then the AST will not be present and hence none
// will be returned.
fn maybe_get_item_ast(tcx: ty::ctxt, def: ast::def_id,
                      decode_inlined_item: decoder::decode_inlined_item)
    -> found_ast {
    let cstore = tcx.cstore;
    let cdata = cstore::get_crate_data(cstore, def.crate);
    decoder::maybe_get_item_ast(cdata, tcx, def.node,
                                decode_inlined_item)
}

fn get_enum_variants(tcx: ty::ctxt, def: ast::def_id)
    -> [ty::variant_info]/~ {
    let cstore = tcx.cstore;
    let cdata = cstore::get_crate_data(cstore, def.crate);
    ret decoder::get_enum_variants(cdata, def.node, tcx)
}

fn get_impls_for_mod(cstore: cstore::cstore, def: ast::def_id,
                     name: option<ast::ident>)
    -> @[@decoder::_impl]/~ {
    let cdata = cstore::get_crate_data(cstore, def.crate);
    decoder::get_impls_for_mod(cdata, def.node, name) {|cnum|
        cstore::get_crate_data(cstore, cnum)
    }
}

fn get_iface_methods(tcx: ty::ctxt, def: ast::def_id) -> @[ty::method]/~ {
    let cstore = tcx.cstore;
    let cdata = cstore::get_crate_data(cstore, def.crate);
    decoder::get_iface_methods(cdata, def.node, tcx)
}

fn get_class_fields(tcx: ty::ctxt, def: ast::def_id) -> [ty::field_ty]/~ {
    let cstore = tcx.cstore;
    let cdata = cstore::get_crate_data(cstore, def.crate);
    decoder::get_class_fields(cdata, def.node)
}

fn get_type(tcx: ty::ctxt, def: ast::def_id) -> ty::ty_param_bounds_and_ty {
    let cstore = tcx.cstore;
    let cdata = cstore::get_crate_data(cstore, def.crate);
    decoder::get_type(cdata, def.node, tcx)
}

fn get_field_type(tcx: ty::ctxt, class_id: ast::def_id,
                  def: ast::def_id) -> ty::ty_param_bounds_and_ty {
    let cstore = tcx.cstore;
    let cdata = cstore::get_crate_data(cstore, class_id.crate);
    let all_items = ebml::get_doc(ebml::doc(cdata.data), tag_items);
    #debug("Looking up %?", class_id);
    let class_doc = expect(tcx.diag,
                           decoder::maybe_find_item(class_id.node, all_items),
                           {|| #fmt("get_field_type: class ID %? not found",
                     class_id)});
    #debug("looking up %? : %?", def, class_doc);
    let the_field = expect(tcx.diag,
        decoder::maybe_find_item(def.node, class_doc),
        {|| #fmt("get_field_type: in class %?, field ID %? not found",
                 class_id, def)});
    #debug("got field data %?", the_field);
    let ty = decoder::item_type(def, the_field, tcx, cdata);
    ret {bounds: @[]/~, rp: ast::rp_none, ty: ty};
}

// Given a def_id for an impl or class, return the iface it implements,
// or none if it's not for an impl or for a class that implements ifaces
fn get_impl_iface(tcx: ty::ctxt, def: ast::def_id) -> option<ty::t> {
    let cstore = tcx.cstore;
    let cdata = cstore::get_crate_data(cstore, def.crate);
    decoder::get_impl_iface(cdata, def.node, tcx)
}

fn get_impl_method(cstore: cstore::cstore,
                   def: ast::def_id, mname: ast::ident)
    -> ast::def_id {
    let cdata = cstore::get_crate_data(cstore, def.crate);
    decoder::get_impl_method(cdata, def.node, mname)
}

/* Because classes use the iface format rather than the impl format
   for their methods (so that get_iface_methods can be reused to get
   class methods), classes require a slightly different version of
   get_impl_method. Sigh. */
fn get_class_method(cstore: cstore::cstore,
                    def: ast::def_id, mname: ast::ident)
    -> ast::def_id {
    let cdata = cstore::get_crate_data(cstore, def.crate);
    decoder::get_class_method(cdata, def.node, mname)
}

/* If def names a class with a dtor, return it. Otherwise, return none. */
fn class_dtor(cstore: cstore::cstore, def: ast::def_id)
    -> option<ast::def_id> {
    let cdata = cstore::get_crate_data(cstore, def.crate);
    decoder::class_dtor(cdata, def.node)
}
// Local Variables:
// mode: rust
// fill-column: 78;
// indent-tabs-mode: nil
// c-basic-offset: 4
// buffer-file-coding-system: utf-8-unix
// End: