rust/src/libstd/serialization.rs
2012-07-01 19:19:32 -07:00

272 lines
5.8 KiB
Rust

#[doc = "Support code for serialization."];
use core;
/*
Core serialization interfaces.
*/
iface serializer {
// Primitive types:
fn emit_nil();
fn emit_uint(v: uint);
fn emit_u64(v: u64);
fn emit_u32(v: u32);
fn emit_u16(v: u16);
fn emit_u8(v: u8);
fn emit_int(v: int);
fn emit_i64(v: i64);
fn emit_i32(v: i32);
fn emit_i16(v: i16);
fn emit_i8(v: i8);
fn emit_bool(v: bool);
fn emit_float(v: float);
fn emit_f64(v: f64);
fn emit_f32(v: f32);
fn emit_str(v: str);
// Compound types:
fn emit_enum(name: str, f: fn());
fn emit_enum_variant(v_name: str, v_id: uint, sz: uint, f: fn());
fn emit_enum_variant_arg(idx: uint, f: fn());
fn emit_vec(len: uint, f: fn());
fn emit_vec_elt(idx: uint, f: fn());
fn emit_box(f: fn());
fn emit_uniq(f: fn());
fn emit_rec(f: fn());
fn emit_rec_field(f_name: str, f_idx: uint, f: fn());
fn emit_tup(sz: uint, f: fn());
fn emit_tup_elt(idx: uint, f: fn());
}
iface deserializer {
// Primitive types:
fn read_nil() -> ();
fn read_uint() -> uint;
fn read_u64() -> u64;
fn read_u32() -> u32;
fn read_u16() -> u16;
fn read_u8() -> u8;
fn read_int() -> int;
fn read_i64() -> i64;
fn read_i32() -> i32;
fn read_i16() -> i16;
fn read_i8() -> i8;
fn read_bool() -> bool;
fn read_str() -> str;
fn read_f64() -> f64;
fn read_f32() -> f32;
fn read_float() -> float;
// Compound types:
fn read_enum<T:copy>(name: str, f: fn() -> T) -> T;
fn read_enum_variant<T:copy>(f: fn(uint) -> T) -> T;
fn read_enum_variant_arg<T:copy>(idx: uint, f: fn() -> T) -> T;
fn read_vec<T:copy>(f: fn(uint) -> T) -> T;
fn read_vec_elt<T:copy>(idx: uint, f: fn() -> T) -> T;
fn read_box<T:copy>(f: fn() -> T) -> T;
fn read_uniq<T:copy>(f: fn() -> T) -> T;
fn read_rec<T:copy>(f: fn() -> T) -> T;
fn read_rec_field<T:copy>(f_name: str, f_idx: uint, f: fn() -> T) -> T;
fn read_tup<T:copy>(sz: uint, f: fn() -> T) -> T;
fn read_tup_elt<T:copy>(idx: uint, f: fn() -> T) -> T;
}
// ___________________________________________________________________________
// Helper routines
//
// In some cases, these should eventually be coded as traits.
fn emit_from_vec<S: serializer, T>(s: S, v: ~[T], f: fn(T)) {
do s.emit_vec(vec::len(v)) || {
do vec::iteri(v) |i,e| {
do s.emit_vec_elt(i) || {
f(e)
}
}
}
}
fn read_to_vec<D: deserializer, T: copy>(d: D, f: fn() -> T) -> ~[T] {
do d.read_vec |len| {
do vec::from_fn(len) |i| {
d.read_vec_elt(i, || f())
}
}
}
impl serializer_helpers<S: serializer> for S {
fn emit_from_vec<T>(v: ~[T], f: fn(T)) {
emit_from_vec(self, v, f)
}
}
impl deserializer_helpers<D: deserializer> for D {
fn read_to_vec<T: copy>(f: fn() -> T) -> ~[T] {
read_to_vec(self, f)
}
}
fn serialize_uint<S: serializer>(s: S, v: uint) {
s.emit_uint(v);
}
fn deserialize_uint<D: deserializer>(d: D) -> uint {
d.read_uint()
}
fn serialize_u8<S: serializer>(s: S, v: u8) {
s.emit_u8(v);
}
fn deserialize_u8<D: deserializer>(d: D) -> u8 {
d.read_u8()
}
fn serialize_u16<S: serializer>(s: S, v: u16) {
s.emit_u16(v);
}
fn deserialize_u16<D: deserializer>(d: D) -> u16 {
d.read_u16()
}
fn serialize_u32<S: serializer>(s: S, v: u32) {
s.emit_u32(v);
}
fn deserialize_u32<D: deserializer>(d: D) -> u32 {
d.read_u32()
}
fn serialize_u64<S: serializer>(s: S, v: u64) {
s.emit_u64(v);
}
fn deserialize_u64<D: deserializer>(d: D) -> u64 {
d.read_u64()
}
fn serialize_int<S: serializer>(s: S, v: int) {
s.emit_int(v);
}
fn deserialize_int<D: deserializer>(d: D) -> int {
d.read_int()
}
fn serialize_i8<S: serializer>(s: S, v: i8) {
s.emit_i8(v);
}
fn deserialize_i8<D: deserializer>(d: D) -> i8 {
d.read_i8()
}
fn serialize_i16<S: serializer>(s: S, v: i16) {
s.emit_i16(v);
}
fn deserialize_i16<D: deserializer>(d: D) -> i16 {
d.read_i16()
}
fn serialize_i32<S: serializer>(s: S, v: i32) {
s.emit_i32(v);
}
fn deserialize_i32<D: deserializer>(d: D) -> i32 {
d.read_i32()
}
fn serialize_i64<S: serializer>(s: S, v: i64) {
s.emit_i64(v);
}
fn deserialize_i64<D: deserializer>(d: D) -> i64 {
d.read_i64()
}
fn serialize_str<S: serializer>(s: S, v: str) {
s.emit_str(v);
}
fn deserialize_str<D: deserializer>(d: D) -> str {
d.read_str()
}
fn serialize_float<S: serializer>(s: S, v: float) {
s.emit_float(v);
}
fn deserialize_float<D: deserializer>(d: D) -> float {
d.read_float()
}
fn serialize_f32<S: serializer>(s: S, v: f32) {
s.emit_f32(v);
}
fn deserialize_f32<D: deserializer>(d: D) -> f32 {
d.read_f32()
}
fn serialize_f64<S: serializer>(s: S, v: f64) {
s.emit_f64(v);
}
fn deserialize_f64<D: deserializer>(d: D) -> f64 {
d.read_f64()
}
fn serialize_bool<S: serializer>(s: S, v: bool) {
s.emit_bool(v);
}
fn deserialize_bool<D: deserializer>(d: D) -> bool {
d.read_bool()
}
fn serialize_option<S: serializer,T>(s: S, v: option<T>, st: fn(T)) {
do s.emit_enum("option") || {
alt v {
none {
do s.emit_enum_variant("none", 0u, 0u) || {
}
}
some(v) {
do s.emit_enum_variant("some", 1u, 1u) || {
do s.emit_enum_variant_arg(0u) || {
st(v)
}
}
}
}
}
}
fn deserialize_option<D: deserializer,T: copy>(d: D, st: fn() -> T)
-> option<T> {
do d.read_enum("option") || {
do d.read_enum_variant |i| {
alt check i {
0u { // none
none
}
1u { // some(v)
some(d.read_enum_variant_arg(0u, || {
st()
}))
}
}
}
}
}