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// Functions dealing with attributes and meta_items
import std::map;
import std::map::hashmap;
import either::either;
import syntax::{ast, ast_util};
import driver::session::session;
export attr_meta;
export attr_metas;
export find_linkage_metas;
export inline_attr;
export find_inline_attr;
export find_attrs_by_name;
export attrs_contains_name;
export find_meta_items_by_name;
export contains;
export contains_name;
export sort_meta_items;
export remove_meta_items_by_name;
export require_unique_names;
export get_attr_name;
export get_meta_item_name;
export get_meta_item_value_str;
export get_meta_item_value_str_by_name;
export get_meta_item_list;
export meta_item_value_from_list;
export meta_item_list_from_list;
export name_value_str_pair;
export mk_name_value_item_str;
export mk_name_value_item;
export mk_list_item;
export mk_word_item;
export mk_attr;
export native_abi;
// From a list of crate attributes get only the meta_items that impact crate
// linkage
fn find_linkage_metas(attrs: [ast::attribute]) -> [@ast::meta_item] {
let mut metas: [@ast::meta_item] = [];
for attr: ast::attribute in find_attrs_by_name(attrs, "link") {
alt attr.node.value.node {
ast::meta_list(_, items) { metas += items; }
_ { #debug("ignoring link attribute that has incorrect type"); }
}
}
ret metas;
}
enum inline_attr {
ia_none,
ia_hint,
ia_always
}
// True if something like #[inline] is found in the list of attrs.
fn find_inline_attr(attrs: [ast::attribute]) -> inline_attr {
// TODO---validate the usage of #[inline] and #[inline(always)]
vec::foldl(ia_none, attrs) {|ia,attr|
alt attr.node.value.node {
ast::meta_word("inline") { ia_hint }
ast::meta_list("inline", items) {
if !vec::is_empty(find_meta_items_by_name(items, "always")) {
ia_always
} else {
ia_hint
}
}
_ { ia }
}
}
}
// Search a list of attributes and return only those with a specific name
fn find_attrs_by_name(attrs: [ast::attribute], name: ast::ident) ->
[ast::attribute] {
let filter = (
fn@(a: ast::attribute) -> option<ast::attribute> {
if get_attr_name(a) == name {
option::some(a)
} else { option::none }
}
);
ret vec::filter_map(attrs, filter);
}
fn attrs_contains_name(attrs: [ast::attribute], name: ast::ident) -> bool {
vec::is_not_empty(find_attrs_by_name(attrs, name))
}
fn get_attr_name(attr: ast::attribute) -> ast::ident {
get_meta_item_name(@attr.node.value)
}
fn find_meta_items_by_name(metas: [@ast::meta_item], name: ast::ident) ->
[@ast::meta_item] {
let filter = fn@(&&m: @ast::meta_item) -> option<@ast::meta_item> {
if get_meta_item_name(m) == name {
option::some(m)
} else { option::none }
};
ret vec::filter_map(metas, filter);
}
fn get_meta_item_name(meta: @ast::meta_item) -> ast::ident {
alt meta.node {
ast::meta_word(n) { n }
ast::meta_name_value(n, _) { n }
ast::meta_list(n, _) { n }
}
}
// Gets the string value if the meta_item is a meta_name_value variant
// containing a string, otherwise none
fn get_meta_item_value_str(meta: @ast::meta_item) -> option<str> {
alt meta.node {
ast::meta_name_value(_, v) {
alt v.node { ast::lit_str(s) { option::some(s) } _ { option::none } }
}
_ { option::none }
}
}
fn get_meta_item_value_str_by_name(attrs: [ast::attribute], name: ast::ident)
-> option<str> {
let mattrs = find_attrs_by_name(attrs, name);
if vec::len(mattrs) > 0u {
ret get_meta_item_value_str(attr_meta(mattrs[0]));
}
ret option::none;
}
fn get_meta_item_list(meta: @ast::meta_item) -> option<[@ast::meta_item]> {
alt meta.node {
ast::meta_list(_, l) { option::some(l) }
_ { option::none }
}
}
fn attr_meta(attr: ast::attribute) -> @ast::meta_item { @attr.node.value }
// Get the meta_items from inside a vector of attributes
fn attr_metas(attrs: [ast::attribute]) -> [@ast::meta_item] {
let mut mitems = [];
for a: ast::attribute in attrs { mitems += [attr_meta(a)]; }
ret mitems;
}
fn eq(a: @ast::meta_item, b: @ast::meta_item) -> bool {
ret alt a.node {
ast::meta_word(na) {
alt b.node { ast::meta_word(nb) { na == nb } _ { false } }
}
ast::meta_name_value(na, va) {
alt b.node {
ast::meta_name_value(nb, vb) { na == nb && va.node == vb.node }
_ { false }
}
}
ast::meta_list(na, la) {
// FIXME (#607): Needs implementing
// This involves probably sorting the list by name and
// meta_item variant
fail "unimplemented meta_item variant"
}
}
}
fn contains(haystack: [@ast::meta_item], needle: @ast::meta_item) -> bool {
#debug("looking for %s",
syntax::print::pprust::meta_item_to_str(*needle));
for item: @ast::meta_item in haystack {
#debug("looking in %s",
syntax::print::pprust::meta_item_to_str(*item));
if eq(item, needle) { #debug("found it!"); ret true; }
}
#debug("found it not :(");
ret false;
}
fn contains_name(metas: [@ast::meta_item], name: ast::ident) -> bool {
let matches = find_meta_items_by_name(metas, name);
ret vec::len(matches) > 0u;
}
// FIXME: This needs to sort by meta_item variant in addition to the item name
fn sort_meta_items(items: [@ast::meta_item]) -> [@ast::meta_item] {
fn lteq(&&ma: @ast::meta_item, &&mb: @ast::meta_item) -> bool {
fn key(m: @ast::meta_item) -> ast::ident {
alt m.node {
ast::meta_word(name) { name }
ast::meta_name_value(name, _) { name }
ast::meta_list(name, _) { name }
}
}
ret key(ma) <= key(mb);
}
// This is sort of stupid here, converting to a vec of mutables and back
let mut v: [mut @ast::meta_item] = [mut];
for mi: @ast::meta_item in items { v += [mut mi]; }
std::sort::quick_sort(lteq, v);
let mut v2: [@ast::meta_item] = [];
for mi: @ast::meta_item in v { v2 += [mi]; }
ret v2;
}
fn remove_meta_items_by_name(items: [@ast::meta_item], name: str) ->
[@ast::meta_item] {
let filter = fn@(&&item: @ast::meta_item) -> option<@ast::meta_item> {
if get_meta_item_name(item) != name {
option::some(item)
} else { option::none }
};
ret vec::filter_map(items, filter);
}
fn require_unique_names(sess: session, metas: [@ast::meta_item]) {
let map = map::str_hash();
for meta: @ast::meta_item in metas {
let name = get_meta_item_name(meta);
if map.contains_key(name) {
sess.span_fatal(meta.span,
#fmt["duplicate meta item `%s`", name]);
}
map.insert(name, ());
}
}
fn native_abi(attrs: [ast::attribute]) -> either<str, ast::native_abi> {
ret alt attr::get_meta_item_value_str_by_name(attrs, "abi") {
option::none {
either::right(ast::native_abi_cdecl)
}
option::some("rust-intrinsic") {
either::right(ast::native_abi_rust_intrinsic)
}
option::some("cdecl") {
either::right(ast::native_abi_cdecl)
}
option::some("stdcall") {
either::right(ast::native_abi_stdcall)
}
option::some(t) {
either::left("unsupported abi: " + t)
}
};
}
fn meta_item_from_list(
items: [@ast::meta_item],
name: str
) -> option<@ast::meta_item> {
let items = attr::find_meta_items_by_name(items, name);
vec::last_opt(items)
}
fn meta_item_value_from_list(
items: [@ast::meta_item],
name: str
) -> option<str> {
alt meta_item_from_list(items, name) {
some(item) {
alt attr::get_meta_item_value_str(item) {
some(value) { some(value) }
none { none }
}
}
none { none }
}
}
fn meta_item_list_from_list(
items: [@ast::meta_item],
name: str
) -> option<[@ast::meta_item]> {
alt meta_item_from_list(items, name) {
some(item) {
attr::get_meta_item_list(item)
}
none { none }
}
}
fn name_value_str_pair(
item: @ast::meta_item
) -> option<(str, str)> {
alt attr::get_meta_item_value_str(item) {
some(value) {
let name = attr::get_meta_item_name(item);
some((name, value))
}
none { none }
}
}
fn span<T: copy>(item: T) -> ast::spanned<T> {
ret {node: item, span: ast_util::dummy_sp()};
}
fn mk_name_value_item_str(name: ast::ident, value: str) -> @ast::meta_item {
let value_lit = span(ast::lit_str(value));
ret mk_name_value_item(name, value_lit);
}
fn mk_name_value_item(name: ast::ident, value: ast::lit) -> @ast::meta_item {
ret @span(ast::meta_name_value(name, value));
}
fn mk_list_item(name: ast::ident, items: [@ast::meta_item]) ->
@ast::meta_item {
ret @span(ast::meta_list(name, items));
}
fn mk_word_item(name: ast::ident) -> @ast::meta_item {
ret @span(ast::meta_word(name));
}
fn mk_attr(item: @ast::meta_item) -> ast::attribute {
ret span({style: ast::attr_inner, value: *item});
}
//
// Local Variables:
// mode: rust
// fill-column: 78;
// indent-tabs-mode: nil
// c-basic-offset: 4
// buffer-file-coding-system: utf-8-unix
// End:
//
|
