rust/src/comp/syntax/ast_util.rs

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import codemap::span;
import ast::*;
fn respan<T: copy>(sp: span, t: T) -> spanned<T> {
ret {node: t, span: sp};
}
/* assuming that we're not in macro expansion */
fn mk_sp(lo: uint, hi: uint) -> span {
ret {lo: lo, hi: hi, expanded_from: codemap::os_none};
}
// make this a const, once the compiler supports it
fn dummy_sp() -> span { ret mk_sp(0u, 0u); }
fn path_name(p: @path) -> str { path_name_i(p.node.idents) }
fn path_name_i(idents: [ident]) -> str { str::connect(idents, "::") }
fn local_def(id: node_id) -> def_id { ret {crate: local_crate, node: id}; }
fn variant_def_ids(d: def) -> {tg: def_id, var: def_id} {
alt d { def_variant(tag_id, var_id) { ret {tg: tag_id, var: var_id}; } }
}
fn def_id_of_def(d: def) -> def_id {
alt d {
def_fn(id, _) | def_self(id) | def_mod(id) |
def_native_mod(id) | def_const(id) | def_arg(id, _) | def_local(id, _) |
def_variant(_, id) | def_ty(id) | def_ty_param(id, _) |
def_binding(id) | def_use(id) | def_native_ty(id) |
def_native_fn(id, _) | def_upvar(id, _, _) { id }
}
}
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fn binop_to_str(op: binop) -> str {
alt op {
add { ret "+"; }
subtract { ret "-"; }
mul { ret "*"; }
div { ret "/"; }
rem { ret "%"; }
and { ret "&&"; }
or { ret "||"; }
bitxor { ret "^"; }
bitand { ret "&"; }
bitor { ret "|"; }
lsl { ret "<<"; }
lsr { ret ">>"; }
asr { ret ">>>"; }
eq { ret "=="; }
lt { ret "<"; }
le { ret "<="; }
ne { ret "!="; }
ge { ret ">="; }
gt { ret ">"; }
}
}
pure fn lazy_binop(b: binop) -> bool {
alt b { and { true } or { true } _ { false } }
}
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fn unop_to_str(op: unop) -> str {
alt op {
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box(mt) { if mt == mut { ret "@mutable "; } ret "@"; }
uniq(mt) { if mt == mut { ret "~mutable "; } ret "~"; }
deref { ret "*"; }
not { ret "!"; }
neg { ret "-"; }
}
}
fn is_path(e: @expr) -> bool {
ret alt e.node { expr_path(_) { true } _ { false } };
}
fn int_ty_to_str(t: int_ty) -> str {
alt t {
ty_i { "" } ty_i8 { "i8" } ty_i16 { "i16" }
ty_i32 { "i32" } ty_i64 { "i64" }
}
}
fn int_ty_max(t: int_ty) -> u64 {
alt t {
ty_i8 { 0x80u64 }
ty_i16 { 0x800u64 }
ty_char | ty_i32 { 0x80000000u64 }
ty_i64 { 0x8000000000000000u64 }
}
}
fn uint_ty_to_str(t: uint_ty) -> str {
alt t {
ty_u { "u" } ty_u8 { "u8" } ty_u16 { "u16" }
ty_u32 { "u32" } ty_u64 { "u64" }
}
}
fn uint_ty_max(t: uint_ty) -> u64 {
alt t {
ty_u8 { 0xffu64 }
ty_u16 { 0xffffu64 }
ty_u32 { 0xffffffffu64 }
ty_u64 { 0xffffffffffffffffu64 }
}
}
fn float_ty_to_str(t: float_ty) -> str {
alt t { ty_f { "" } ty_f32 { "f32" } ty_f64 { "f64" } }
}
fn is_exported(i: ident, m: _mod) -> bool {
let nonlocal = true;
for it: @item in m.items {
if it.ident == i { nonlocal = false; }
alt it.node {
item_tag(variants, _) {
for v: variant in variants {
if v.node.name == i { nonlocal = false; }
}
}
_ { }
}
if !nonlocal { break; }
}
let count = 0u;
for vi: @view_item in m.view_items {
alt vi.node {
view_item_export(ids, _) {
for id in ids { if str::eq(i, id) { ret true; } }
count += 1u;
}
_ {/* fall through */ }
}
}
// If there are no declared exports then
// everything not imported is exported
// even if it's nonlocal (since it's explicit)
ret count == 0u && !nonlocal;
}
pure fn is_call_expr(e: @expr) -> bool {
alt e.node { expr_call(_, _, _) { true } _ { false } }
}
fn is_constraint_arg(e: @expr) -> bool {
alt e.node {
expr_lit(_) { ret true; }
expr_path(_) { ret true; }
_ { ret false; }
}
}
fn eq_ty(&&a: @ty, &&b: @ty) -> bool { ret box::ptr_eq(a, b); }
fn hash_ty(&&t: @ty) -> uint {
let res = (t.span.lo << 16u) + t.span.hi;
ret res;
}
fn hash_def_id(&&id: def_id) -> uint {
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(id.crate as uint << 16u) + (id.node as uint)
}
fn eq_def_id(&&a: def_id, &&b: def_id) -> bool {
a == b
}
fn new_def_id_hash<T: copy>() -> std::map::hashmap<def_id, T> {
std::map::mk_hashmap(hash_def_id, eq_def_id)
}
fn block_from_expr(e: @expr) -> blk {
let blk_ = default_block([], option::some::<@expr>(e), e.id);
ret {node: blk_, span: e.span};
}
fn default_block(stmts1: [@stmt], expr1: option::t<@expr>, id1: node_id) ->
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blk_ {
{view_items: [], stmts: stmts1, expr: expr1, id: id1, rules: default_blk}
}
// This is a convenience function to transfor ternary expressions to if
// expressions so that they can be treated the same
fn ternary_to_if(e: @expr) -> @expr {
alt e.node {
expr_ternary(cond, then, els) {
let then_blk = block_from_expr(then);
let els_blk = block_from_expr(els);
let els_expr =
@{id: els.id, node: expr_block(els_blk), span: els.span};
ret @{id: e.id,
node: expr_if(cond, then_blk, option::some(els_expr)),
span: e.span};
}
_ { fail; }
}
}
// FIXME this doesn't handle big integer/float literals correctly (nor does
// the rest of our literal handling)
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enum const_val {
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const_float(float),
const_int(i64),
const_uint(u64),
const_str(str),
}
// FIXME: issue #1417
fn eval_const_expr(e: @expr) -> const_val {
fn fromb(b: bool) -> const_val { const_int(b as i64) }
alt e.node {
expr_unary(neg, inner) {
alt eval_const_expr(inner) {
const_float(f) { const_float(-f) }
const_int(i) { const_int(-i) }
const_uint(i) { const_uint(-i) }
}
}
expr_unary(not, inner) {
alt eval_const_expr(inner) {
const_int(i) { const_int(!i) }
const_uint(i) { const_uint(!i) }
}
}
expr_binary(op, a, b) {
alt (eval_const_expr(a), eval_const_expr(b)) {
(const_float(a), const_float(b)) {
alt op {
add { const_float(a + b) } subtract { const_float(a - b) }
mul { const_float(a * b) } div { const_float(a / b) }
rem { const_float(a % b) } eq { fromb(a == b) }
lt { fromb(a < b) } le { fromb(a <= b) } ne { fromb(a != b) }
ge { fromb(a >= b) } gt { fromb(a > b) }
}
}
(const_int(a), const_int(b)) {
alt op {
add { const_int(a + b) } subtract { const_int(a - b) }
mul { const_int(a * b) } div { const_int(a / b) }
rem { const_int(a % b) } and | bitand { const_int(a & b) }
or | bitor { const_int(a | b) } bitxor { const_int(a ^ b) }
eq { fromb(a == b) } lt { fromb(a < b) }
le { fromb(a <= b) } ne { fromb(a != b) }
ge { fromb(a >= b) } gt { fromb(a > b) }
}
}
(const_uint(a), const_uint(b)) {
alt op {
add { const_uint(a + b) } subtract { const_uint(a - b) }
mul { const_uint(a * b) } div { const_uint(a / b) }
rem { const_uint(a % b) } and | bitand { const_uint(a & b) }
or | bitor { const_uint(a | b) } bitxor { const_uint(a ^ b) }
eq { fromb(a == b) } lt { fromb(a < b) }
le { fromb(a <= b) } ne { fromb(a != b) }
ge { fromb(a >= b) } gt { fromb(a > b) }
}
}
}
}
expr_lit(lit) { lit_to_const(lit) }
}
}
fn lit_to_const(lit: @lit) -> const_val {
alt lit.node {
lit_str(s) { const_str(s) }
lit_int(n, _) { const_int(n) }
lit_uint(n, _) { const_uint(n) }
lit_float(n, _) { const_float(float::from_str(n)) }
lit_nil { const_int(0i64) }
lit_bool(b) { const_int(b as i64) }
}
}
fn compare_const_vals(a: const_val, b: const_val) -> int {
alt (a, b) {
(const_int(a), const_int(b)) { a == b ? 0 : a < b ? -1 : 1 }
(const_uint(a), const_uint(b)) { a == b ? 0 : a < b ? -1 : 1 }
(const_float(a), const_float(b)) { a == b ? 0 : a < b ? -1 : 1 }
(const_str(a), const_str(b)) { a == b ? 0 : a < b ? -1 : 1 }
}
}
fn compare_lit_exprs(a: @expr, b: @expr) -> int {
compare_const_vals(eval_const_expr(a), eval_const_expr(b))
}
fn lit_expr_eq(a: @expr, b: @expr) -> bool { compare_lit_exprs(a, b) == 0 }
fn lit_eq(a: @lit, b: @lit) -> bool {
compare_const_vals(lit_to_const(a), lit_to_const(b)) == 0
}
fn ident_to_path(s: span, i: ident) -> @path {
@respan(s, {global: false, idents: [i], types: []})
}
// Local Variables:
// mode: rust
// fill-column: 78;
// indent-tabs-mode: nil
// c-basic-offset: 4
// buffer-file-coding-system: utf-8-unix
// End: