extern mod std; // These tests used to be separate files, but I wanted to refactor all // the common code. use cmp::Eq; use std::ebml2; use io::Writer; use std::serialization2::{Serializable, Deserializable, deserialize}; use std::prettyprint2; fn test_ser_and_deser( a1: &A, +expected: ~str ) { // check the pretty printer: let s = do io::with_str_writer |w| { a1.serialize(&prettyprint2::Serializer(w)) }; debug!("s == %?", s); assert s == expected; // check the EBML serializer: let bytes = do io::with_bytes_writer |wr| { let ebml_w = &ebml2::Serializer(wr); a1.serialize(ebml_w) }; let d = ebml2::Doc(@bytes); let a2: A = deserialize(&ebml2::Deserializer(d)); assert *a1 == a2; } #[auto_serialize2] #[auto_deserialize2] enum Expr { Val(uint), Plus(@Expr, @Expr), Minus(@Expr, @Expr) } impl Expr : cmp::Eq { pure fn eq(other: &Expr) -> bool { match self { Val(e0a) => { match *other { Val(e0b) => e0a == e0b, _ => false } } Plus(e0a, e1a) => { match *other { Plus(e0b, e1b) => e0a == e0b && e1a == e1b, _ => false } } Minus(e0a, e1a) => { match *other { Minus(e0b, e1b) => e0a == e0b && e1a == e1b, _ => false } } } } pure fn ne(other: &Expr) -> bool { !self.eq(other) } } impl AnEnum : cmp::Eq { pure fn eq(other: &AnEnum) -> bool { self.v == other.v } pure fn ne(other: &AnEnum) -> bool { !self.eq(other) } } impl Point : cmp::Eq { pure fn eq(other: &Point) -> bool { self.x == other.x && self.y == other.y } pure fn ne(other: &Point) -> bool { !self.eq(other) } } impl Quark : cmp::Eq { pure fn eq(other: &Quark) -> bool { match self { Top(ref q) => { match *other { Top(ref r) => q == r, Bottom(_) => false } }, Bottom(ref q) => { match *other { Top(_) => false, Bottom(ref r) => q == r } }, } } pure fn ne(other: &Quark) -> bool { !self.eq(other) } } impl CLike : cmp::Eq { pure fn eq(other: &CLike) -> bool { self as int == *other as int } pure fn ne(other: &CLike) -> bool { !self.eq(other) } } #[auto_serialize2] #[auto_deserialize2] type Spanned = {lo: uint, hi: uint, node: T}; impl Spanned : cmp::Eq { pure fn eq(other: &Spanned) -> bool { self.lo == other.lo && self.hi == other.hi && self.node == other.node } pure fn ne(other: &Spanned) -> bool { !self.eq(other) } } #[auto_serialize2] #[auto_deserialize2] type SomeRec = {v: ~[uint]}; #[auto_serialize2] #[auto_deserialize2] enum AnEnum = SomeRec; #[auto_serialize2] #[auto_deserialize2] struct Point {x: uint, y: uint} #[auto_serialize2] #[auto_deserialize2] enum Quark { Top(T), Bottom(T) } #[auto_serialize2] #[auto_deserialize2] enum CLike { A, B, C } fn main() { test_ser_and_deser(&Plus(@Minus(@Val(3u), @Val(10u)), @Plus(@Val(22u), @Val(5u))), ~"Plus(@Minus(@Val(3u), @Val(10u)), \ @Plus(@Val(22u), @Val(5u)))"); test_ser_and_deser(&{lo: 0u, hi: 5u, node: 22u}, ~"{lo: 0u, hi: 5u, node: 22u}"); test_ser_and_deser(&AnEnum({v: ~[1u, 2u, 3u]}), ~"AnEnum({v: ~[1u, 2u, 3u]})"); test_ser_and_deser(&Point {x: 3u, y: 5u}, ~"Point {x: 3u, y: 5u}"); test_ser_and_deser(&@[1u, 2u, 3u], ~"@[1u, 2u, 3u]"); test_ser_and_deser(&Top(22u), ~"Top(22u)"); test_ser_and_deser(&Bottom(222u), ~"Bottom(222u)"); test_ser_and_deser(&A, ~"A"); test_ser_and_deser(&B, ~"B"); }