import syntax::ast::*; // FIXME this doesn't handle big integer/float literals correctly (nor does // the rest of our literal handling) enum const_val { const_float(float), const_int(i64), const_uint(u64), const_str(str), } // FIXME: issue #1417 fn eval_const_expr(tcx: middle::ty::ctxt, e: @expr) -> const_val { import middle::ty; fn fromb(b: bool) -> const_val { const_int(b as i64) } alt check e.node { expr_unary(neg, inner) { alt check eval_const_expr(tcx, inner) { const_float(f) { const_float(-f) } const_int(i) { const_int(-i) } const_uint(i) { const_uint(-i) } } } expr_unary(not, inner) { alt check eval_const_expr(tcx, inner) { const_int(i) { const_int(!i) } const_uint(i) { const_uint(!i) } } } expr_binary(op, a, b) { alt check (eval_const_expr(tcx, a), eval_const_expr(tcx, b)) { (const_float(a), const_float(b)) { alt check 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 check 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) } shl { const_int(a << b) } shr { 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 check 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) } shl { const_uint(a << b) } shr { 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) } } } // shifts can have any integral type as their rhs (const_int(a), const_uint(b)) { alt check op { shl { const_int(a << b) } shr { const_int(a >> b) } } } (const_uint(a), const_int(b)) { alt check op { shl { const_uint(a << b) } shr { const_uint(a >> b) } } } } } expr_cast(base, _) { let ety = ty::expr_ty(tcx, e); let base = eval_const_expr(tcx, base); alt check ty::get(ety).struct { ty::ty_float(_) { alt check base { const_uint(u) { const_float(u as f64) } const_int(i) { const_float(i as f64) } const_float(_) { base } } } ty::ty_uint(_) { alt check base { const_uint(_) { base } const_int(i) { const_uint(i as u64) } const_float(f) { const_uint(f as u64) } } } ty::ty_int(_) | ty::ty_bool { alt check base { const_uint(u) { const_int(u as i64) } const_int(_) { base } const_float(f) { const_int(f as i64) } } } } } 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(option::get(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)) { if a == b { 0 } else if a < b { -1 } else { 1 } } (const_uint(a), const_uint(b)) { if a == b { 0 } else if a < b { -1 } else { 1 } } (const_float(a), const_float(b)) { if a == b { 0 } else if a < b { -1 } else { 1 } } (const_str(a), const_str(b)) { if a == b { 0 } else if a < b { -1 } else { 1 } } _ { fail "compare_const_vals: ill-typed comparison"; } } } fn compare_lit_exprs(tcx: middle::ty::ctxt, a: @expr, b: @expr) -> int { compare_const_vals(eval_const_expr(tcx, a), eval_const_expr(tcx, b)) } fn lit_expr_eq(tcx: middle::ty::ctxt, a: @expr, b: @expr) -> bool { compare_lit_exprs(tcx, a, b) == 0 } fn lit_eq(a: @lit, b: @lit) -> bool { compare_const_vals(lit_to_const(a), lit_to_const(b)) == 0 }