// Copyright 2012 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! Support code for encoding and decoding types. /* Core encoding and decoding interfaces. */ #[forbid(deprecated_mode)]; #[forbid(non_camel_case_types)]; use core::at_vec; use core::prelude::*; use core::vec; pub trait Encoder { // Primitive types: fn emit_nil(&self); fn emit_uint(&self, v: uint); fn emit_u64(&self, v: u64); fn emit_u32(&self, v: u32); fn emit_u16(&self, v: u16); fn emit_u8(&self, v: u8); fn emit_int(&self, v: int); fn emit_i64(&self, v: i64); fn emit_i32(&self, v: i32); fn emit_i16(&self, v: i16); fn emit_i8(&self, v: i8); fn emit_bool(&self, v: bool); fn emit_float(&self, v: float); fn emit_f64(&self, v: f64); fn emit_f32(&self, v: f32); fn emit_char(&self, v: char); fn emit_borrowed_str(&self, v: &str); fn emit_owned_str(&self, v: &str); fn emit_managed_str(&self, v: &str); // Compound types: fn emit_borrowed(&self, f: fn()); fn emit_owned(&self, f: fn()); fn emit_managed(&self, f: fn()); fn emit_enum(&self, name: &str, f: fn()); fn emit_enum_variant(&self, v_name: &str, v_id: uint, sz: uint, f: fn()); fn emit_enum_variant_arg(&self, idx: uint, f: fn()); fn emit_borrowed_vec(&self, len: uint, f: fn()); fn emit_owned_vec(&self, len: uint, f: fn()); fn emit_managed_vec(&self, len: uint, f: fn()); fn emit_vec_elt(&self, idx: uint, f: fn()); fn emit_rec(&self, f: fn()); fn emit_struct(&self, name: &str, _len: uint, f: fn()); fn emit_field(&self, f_name: &str, f_idx: uint, f: fn()); fn emit_tup(&self, len: uint, f: fn()); fn emit_tup_elt(&self, idx: uint, f: fn()); } pub trait Decoder { // Primitive types: fn read_nil(&self) -> (); fn read_uint(&self) -> uint; fn read_u64(&self) -> u64; fn read_u32(&self) -> u32; fn read_u16(&self) -> u16; fn read_u8(&self) -> u8; fn read_int(&self) -> int; fn read_i64(&self) -> i64; fn read_i32(&self) -> i32; fn read_i16(&self) -> i16; fn read_i8(&self) -> i8; fn read_bool(&self) -> bool; fn read_f64(&self) -> f64; fn read_f32(&self) -> f32; fn read_float(&self) -> float; fn read_char(&self) -> char; fn read_owned_str(&self) -> ~str; fn read_managed_str(&self) -> @str; // Compound types: fn read_enum(&self, name: &str, f: fn() -> T) -> T; fn read_enum_variant(&self, f: fn(uint) -> T) -> T; fn read_enum_variant_arg(&self, idx: uint, f: fn() -> T) -> T; fn read_owned(&self, f: fn() -> T) -> T; fn read_managed(&self, f: fn() -> T) -> T; fn read_owned_vec(&self, f: fn(uint) -> T) -> T; fn read_managed_vec(&self, f: fn(uint) -> T) -> T; fn read_vec_elt(&self, idx: uint, f: fn() -> T) -> T; fn read_rec(&self, f: fn() -> T) -> T; fn read_struct(&self, name: &str, _len: uint, f: fn() -> T) -> T; fn read_field(&self, name: &str, idx: uint, f: fn() -> T) -> T; fn read_tup(&self, sz: uint, f: fn() -> T) -> T; fn read_tup_elt(&self, idx: uint, f: fn() -> T) -> T; } pub trait Encodable { fn encode(&self, s: &S); } pub trait Decodable { static fn decode(&self, d: &D) -> self; } pub impl uint: Encodable { fn encode(&self, s: &S) { s.emit_uint(*self) } } pub impl uint: Decodable { static fn decode(&self, d: &D) -> uint { d.read_uint() } } pub impl u8: Encodable { fn encode(&self, s: &S) { s.emit_u8(*self) } } pub impl u8: Decodable { static fn decode(&self, d: &D) -> u8 { d.read_u8() } } pub impl u16: Encodable { fn encode(&self, s: &S) { s.emit_u16(*self) } } pub impl u16: Decodable { static fn decode(&self, d: &D) -> u16 { d.read_u16() } } pub impl u32: Encodable { fn encode(&self, s: &S) { s.emit_u32(*self) } } pub impl u32: Decodable { static fn decode(&self, d: &D) -> u32 { d.read_u32() } } pub impl u64: Encodable { fn encode(&self, s: &S) { s.emit_u64(*self) } } pub impl u64: Decodable { static fn decode(&self, d: &D) -> u64 { d.read_u64() } } pub impl int: Encodable { fn encode(&self, s: &S) { s.emit_int(*self) } } pub impl int: Decodable { static fn decode(&self, d: &D) -> int { d.read_int() } } pub impl i8: Encodable { fn encode(&self, s: &S) { s.emit_i8(*self) } } pub impl i8: Decodable { static fn decode(&self, d: &D) -> i8 { d.read_i8() } } pub impl i16: Encodable { fn encode(&self, s: &S) { s.emit_i16(*self) } } pub impl i16: Decodable { static fn decode(&self, d: &D) -> i16 { d.read_i16() } } pub impl i32: Encodable { fn encode(&self, s: &S) { s.emit_i32(*self) } } pub impl i32: Decodable { static fn decode(&self, d: &D) -> i32 { d.read_i32() } } pub impl i64: Encodable { fn encode(&self, s: &S) { s.emit_i64(*self) } } pub impl i64: Decodable { static fn decode(&self, d: &D) -> i64 { d.read_i64() } } pub impl &str: Encodable { fn encode(&self, s: &S) { s.emit_borrowed_str(*self) } } pub impl ~str: Encodable { fn encode(&self, s: &S) { s.emit_owned_str(*self) } } pub impl ~str: Decodable { static fn decode(&self, d: &D) -> ~str { d.read_owned_str() } } pub impl @str: Encodable { fn encode(&self, s: &S) { s.emit_managed_str(*self) } } pub impl @str: Decodable { static fn decode(&self, d: &D) -> @str { d.read_managed_str() } } pub impl float: Encodable { fn encode(&self, s: &S) { s.emit_float(*self) } } pub impl float: Decodable { static fn decode(&self, d: &D) -> float { d.read_float() } } pub impl f32: Encodable { fn encode(&self, s: &S) { s.emit_f32(*self) } } pub impl f32: Decodable { static fn decode(&self, d: &D) -> f32 { d.read_f32() } } pub impl f64: Encodable { fn encode(&self, s: &S) { s.emit_f64(*self) } } pub impl f64: Decodable { static fn decode(&self, d: &D) -> f64 { d.read_f64() } } pub impl bool: Encodable { fn encode(&self, s: &S) { s.emit_bool(*self) } } pub impl bool: Decodable { static fn decode(&self, d: &D) -> bool { d.read_bool() } } pub impl (): Encodable { fn encode(&self, s: &S) { s.emit_nil() } } pub impl (): Decodable { static fn decode(&self, d: &D) -> () { d.read_nil() } } pub impl> &T: Encodable { fn encode(&self, s: &S) { s.emit_borrowed(|| (**self).encode(s)) } } pub impl> ~T: Encodable { fn encode(&self, s: &S) { s.emit_owned(|| (**self).encode(s)) } } pub impl> ~T: Decodable { static fn decode(&self, d: &D) -> ~T { d.read_owned(|| ~Decodable::decode(d)) } } pub impl> @T: Encodable { fn encode(&self, s: &S) { s.emit_managed(|| (**self).encode(s)) } } pub impl> @T: Decodable { static fn decode(&self, d: &D) -> @T { d.read_managed(|| @Decodable::decode(d)) } } pub impl> &[T]: Encodable { fn encode(&self, s: &S) { do s.emit_borrowed_vec(self.len()) { for self.eachi |i, e| { s.emit_vec_elt(i, || e.encode(s)) } } } } pub impl> ~[T]: Encodable { fn encode(&self, s: &S) { do s.emit_owned_vec(self.len()) { for self.eachi |i, e| { s.emit_vec_elt(i, || e.encode(s)) } } } } pub impl> ~[T]: Decodable { static fn decode(&self, d: &D) -> ~[T] { do d.read_owned_vec |len| { do vec::from_fn(len) |i| { d.read_vec_elt(i, || Decodable::decode(d)) } } } } pub impl> @[T]: Encodable { fn encode(&self, s: &S) { do s.emit_managed_vec(self.len()) { for self.eachi |i, e| { s.emit_vec_elt(i, || e.encode(s)) } } } } pub impl> @[T]: Decodable { static fn decode(&self, d: &D) -> @[T] { do d.read_managed_vec |len| { do at_vec::from_fn(len) |i| { d.read_vec_elt(i, || Decodable::decode(d)) } } } } pub impl> Option: Encodable { fn encode(&self, s: &S) { do s.emit_enum(~"option") { match *self { None => do s.emit_enum_variant(~"none", 0u, 0u) { }, Some(ref v) => do s.emit_enum_variant(~"some", 1u, 1u) { s.emit_enum_variant_arg(0u, || v.encode(s)) } } } } } pub impl> Option: Decodable { static fn decode(&self, d: &D) -> Option { do d.read_enum(~"option") { do d.read_enum_variant |i| { match i { 0 => None, 1 => Some(d.read_enum_variant_arg( 0u, || Decodable::decode(d))), _ => fail(fmt!("Bad variant for option: %u", i)) } } } } } pub impl< S: Encoder, T0: Encodable, T1: Encodable > (T0, T1): Encodable { fn encode(&self, s: &S) { match *self { (ref t0, ref t1) => { do s.emit_tup(2) { s.emit_tup_elt(0, || t0.encode(s)); s.emit_tup_elt(1, || t1.encode(s)); } } } } } pub impl< D: Decoder, T0: Decodable, T1: Decodable > (T0, T1): Decodable { static fn decode(&self, d: &D) -> (T0, T1) { do d.read_tup(2) { ( d.read_tup_elt(0, || Decodable::decode(d)), d.read_tup_elt(1, || Decodable::decode(d)) ) } } } pub impl< S: Encoder, T0: Encodable, T1: Encodable, T2: Encodable > (T0, T1, T2): Encodable { fn encode(&self, s: &S) { match *self { (ref t0, ref t1, ref t2) => { do s.emit_tup(3) { s.emit_tup_elt(0, || t0.encode(s)); s.emit_tup_elt(1, || t1.encode(s)); s.emit_tup_elt(2, || t2.encode(s)); } } } } } pub impl< D: Decoder, T0: Decodable, T1: Decodable, T2: Decodable > (T0, T1, T2): Decodable { static fn decode(&self, d: &D) -> (T0, T1, T2) { do d.read_tup(3) { ( d.read_tup_elt(0, || Decodable::decode(d)), d.read_tup_elt(1, || Decodable::decode(d)), d.read_tup_elt(2, || Decodable::decode(d)) ) } } } pub impl< S: Encoder, T0: Encodable, T1: Encodable, T2: Encodable, T3: Encodable > (T0, T1, T2, T3): Encodable { fn encode(&self, s: &S) { match *self { (ref t0, ref t1, ref t2, ref t3) => { do s.emit_tup(4) { s.emit_tup_elt(0, || t0.encode(s)); s.emit_tup_elt(1, || t1.encode(s)); s.emit_tup_elt(2, || t2.encode(s)); s.emit_tup_elt(3, || t3.encode(s)); } } } } } pub impl< D: Decoder, T0: Decodable, T1: Decodable, T2: Decodable, T3: Decodable > (T0, T1, T2, T3): Decodable { static fn decode(&self, d: &D) -> (T0, T1, T2, T3) { do d.read_tup(4) { ( d.read_tup_elt(0, || Decodable::decode(d)), d.read_tup_elt(1, || Decodable::decode(d)), d.read_tup_elt(2, || Decodable::decode(d)), d.read_tup_elt(3, || Decodable::decode(d)) ) } } } pub impl< S: Encoder, T0: Encodable, T1: Encodable, T2: Encodable, T3: Encodable, T4: Encodable > (T0, T1, T2, T3, T4): Encodable { fn encode(&self, s: &S) { match *self { (ref t0, ref t1, ref t2, ref t3, ref t4) => { do s.emit_tup(5) { s.emit_tup_elt(0, || t0.encode(s)); s.emit_tup_elt(1, || t1.encode(s)); s.emit_tup_elt(2, || t2.encode(s)); s.emit_tup_elt(3, || t3.encode(s)); s.emit_tup_elt(4, || t4.encode(s)); } } } } } pub impl< D: Decoder, T0: Decodable, T1: Decodable, T2: Decodable, T3: Decodable, T4: Decodable > (T0, T1, T2, T3, T4): Decodable { static fn decode(&self, d: &D) -> (T0, T1, T2, T3, T4) { do d.read_tup(5) { ( d.read_tup_elt(0, || Decodable::decode(d)), d.read_tup_elt(1, || Decodable::decode(d)), d.read_tup_elt(2, || Decodable::decode(d)), d.read_tup_elt(3, || Decodable::decode(d)), d.read_tup_elt(4, || Decodable::decode(d)) ) } } } // ___________________________________________________________________________ // Helper routines // // In some cases, these should eventually be coded as traits. pub trait EncoderHelpers { fn emit_from_vec(&self, v: &[T], f: fn(v: &T)); } pub impl S: EncoderHelpers { fn emit_from_vec(&self, v: &[T], f: fn(v: &T)) { do self.emit_owned_vec(v.len()) { for v.eachi |i, e| { do self.emit_vec_elt(i) { f(e) } } } } } pub trait DecoderHelpers { fn read_to_vec(&self, f: fn() -> T) -> ~[T]; } pub impl D: DecoderHelpers { fn read_to_vec(&self, f: fn() -> T) -> ~[T] { do self.read_owned_vec |len| { do vec::from_fn(len) |i| { self.read_vec_elt(i, || f()) } } } }