rust/src/libstd/ebml.rs

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// Simple Extensible Binary Markup Language (ebml) reader and writer on a
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// cursor model. See the specification here:
// http://www.matroska.org/technical/specs/rfc/index.html
import core::option;
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import option::{some, none};
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export doc;
export doc_at;
export maybe_get_doc;
export get_doc;
export docs;
export tagged_docs;
export doc_data;
export doc_as_str;
export doc_as_u8;
export doc_as_u16;
export doc_as_u32;
export doc_as_u64;
export doc_as_i8;
export doc_as_i16;
export doc_as_i32;
export doc_as_i64;
export writer;
export serializer;
export ebml_deserializer;
export deserializer;
export with_doc_data;
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type ebml_tag = {id: uint, size: uint};
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type ebml_state = {ebml_tag: ebml_tag, tag_pos: uint, data_pos: uint};
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// FIXME (#2739): When we have module renaming, make "reader" and "writer"
// separate modules within this file.
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// ebml reading
type doc = {data: @~[u8], start: uint, end: uint};
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type tagged_doc = {tag: uint, doc: doc};
fn vuint_at(data: &[u8], start: uint) -> {val: uint, next: uint} {
let a = data[start];
if a & 0x80u8 != 0u8 {
ret {val: (a & 0x7fu8) as uint, next: start + 1u};
}
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if a & 0x40u8 != 0u8 {
ret {val: ((a & 0x3fu8) as uint) << 8u |
(data[start + 1u] as uint),
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next: start + 2u};
} else if a & 0x20u8 != 0u8 {
ret {val: ((a & 0x1fu8) as uint) << 16u |
(data[start + 1u] as uint) << 8u |
(data[start + 2u] as uint),
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next: start + 3u};
} else if a & 0x10u8 != 0u8 {
ret {val: ((a & 0x0fu8) as uint) << 24u |
(data[start + 1u] as uint) << 16u |
(data[start + 2u] as uint) << 8u |
(data[start + 3u] as uint),
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next: start + 4u};
} else { #error("vint too big"); fail; }
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}
fn doc(data: @~[u8]) -> doc {
ret {data: data, start: 0u, end: vec::len::<u8>(*data)};
}
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fn doc_at(data: @~[u8], start: uint) -> tagged_doc {
let elt_tag = vuint_at(*data, start);
let elt_size = vuint_at(*data, elt_tag.next);
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let end = elt_size.next + elt_size.val;
ret {tag: elt_tag.val,
doc: {data: data, start: elt_size.next, end: end}};
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}
fn maybe_get_doc(d: doc, tg: uint) -> option<doc> {
let mut pos = d.start;
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while pos < d.end {
let elt_tag = vuint_at(*d.data, pos);
let elt_size = vuint_at(*d.data, elt_tag.next);
pos = elt_size.next + elt_size.val;
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if elt_tag.val == tg {
ret some::<doc>({data: d.data, start: elt_size.next, end: pos});
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}
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}
ret none::<doc>;
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}
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fn get_doc(d: doc, tg: uint) -> doc {
alt maybe_get_doc(d, tg) {
some(d) { ret d; }
none {
#error("failed to find block with tag %u", tg);
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fail;
}
}
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}
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fn docs(d: doc, it: fn(uint, doc)) {
let mut pos = d.start;
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while pos < d.end {
let elt_tag = vuint_at(*d.data, pos);
let elt_size = vuint_at(*d.data, elt_tag.next);
pos = elt_size.next + elt_size.val;
it(elt_tag.val, {data: d.data, start: elt_size.next, end: pos});
}
}
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fn tagged_docs(d: doc, tg: uint, it: fn(doc)) {
let mut pos = d.start;
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while pos < d.end {
let elt_tag = vuint_at(*d.data, pos);
let elt_size = vuint_at(*d.data, elt_tag.next);
pos = elt_size.next + elt_size.val;
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if elt_tag.val == tg {
it({data: d.data, start: elt_size.next, end: pos});
}
}
}
fn doc_data(d: doc) -> ~[u8] { vec::slice::<u8>(*d.data, d.start, d.end) }
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fn with_doc_data<T>(d: doc, f: fn(x: &[u8]) -> T) -> T {
// FIXME (#2880): use vec::view once the region inferencer can handle it.
ret f(vec::slice::<u8>(*d.data, d.start, d.end));
}
fn doc_as_str(d: doc) -> ~str { ret str::from_bytes(doc_data(d)); }
fn doc_as_u8(d: doc) -> u8 {
assert d.end == d.start + 1u;
ret (*d.data)[d.start];
}
fn doc_as_u16(d: doc) -> u16 {
assert d.end == d.start + 2u;
ret io::u64_from_be_bytes(*d.data, d.start, 2u) as u16;
}
fn doc_as_u32(d: doc) -> u32 {
assert d.end == d.start + 4u;
ret io::u64_from_be_bytes(*d.data, d.start, 4u) as u32;
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}
fn doc_as_u64(d: doc) -> u64 {
assert d.end == d.start + 8u;
ret io::u64_from_be_bytes(*d.data, d.start, 8u);
}
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fn doc_as_i8(d: doc) -> i8 { doc_as_u8(d) as i8 }
fn doc_as_i16(d: doc) -> i16 { doc_as_u16(d) as i16 }
fn doc_as_i32(d: doc) -> i32 { doc_as_u32(d) as i32 }
fn doc_as_i64(d: doc) -> i64 { doc_as_u64(d) as i64 }
// ebml writing
type writer = {writer: io::writer, mut size_positions: ~[uint]};
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fn write_sized_vuint(w: io::writer, n: uint, size: uint) {
alt size {
1u {
w.write(&[0x80u8 | (n as u8)]);
}
2u {
w.write(&[0x40u8 | ((n >> 8_u) as u8), n as u8]);
}
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3u {
w.write(&[0x20u8 | ((n >> 16_u) as u8), (n >> 8_u) as u8,
n as u8]);
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}
4u {
w.write(&[0x10u8 | ((n >> 24_u) as u8), (n >> 16_u) as u8,
(n >> 8_u) as u8, n as u8]);
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}
_ { fail #fmt("vint to write too big: %?", n); }
};
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}
fn write_vuint(w: io::writer, n: uint) {
if n < 0x7f_u { write_sized_vuint(w, n, 1u); ret; }
if n < 0x4000_u { write_sized_vuint(w, n, 2u); ret; }
if n < 0x200000_u { write_sized_vuint(w, n, 3u); ret; }
if n < 0x10000000_u { write_sized_vuint(w, n, 4u); ret; }
fail #fmt("vint to write too big: %?", n);
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}
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fn writer(w: io::writer) -> writer {
let size_positions: ~[uint] = ~[];
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ret {writer: w, mut size_positions: size_positions};
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}
// FIXME (#2741): Provide a function to write the standard ebml header.
impl writer for writer {
fn start_tag(tag_id: uint) {
#debug["Start tag %u", tag_id];
// Write the enum ID:
write_vuint(self.writer, tag_id);
// Write a placeholder four-byte size.
vec::push(self.size_positions, self.writer.tell());
let zeroes: &[u8] = &[0u8, 0u8, 0u8, 0u8];
self.writer.write(zeroes);
}
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fn end_tag() {
let last_size_pos = vec::pop::<uint>(self.size_positions);
let cur_pos = self.writer.tell();
self.writer.seek(last_size_pos as int, io::seek_set);
let size = (cur_pos - last_size_pos - 4u);
write_sized_vuint(self.writer, size, 4u);
self.writer.seek(cur_pos as int, io::seek_set);
#debug["End tag (size = %u)", size];
}
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fn wr_tag(tag_id: uint, blk: fn()) {
self.start_tag(tag_id);
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blk();
self.end_tag();
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}
fn wr_tagged_bytes(tag_id: uint, b: &[u8]) {
write_vuint(self.writer, tag_id);
write_vuint(self.writer, vec::len(b));
self.writer.write(b);
}
fn wr_tagged_u64(tag_id: uint, v: u64) {
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do io::u64_to_be_bytes(v, 8u) |v| {
self.wr_tagged_bytes(tag_id, v);
}
}
fn wr_tagged_u32(tag_id: uint, v: u32) {
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do io::u64_to_be_bytes(v as u64, 4u) |v| {
self.wr_tagged_bytes(tag_id, v);
}
}
fn wr_tagged_u16(tag_id: uint, v: u16) {
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do io::u64_to_be_bytes(v as u64, 2u) |v| {
self.wr_tagged_bytes(tag_id, v);
}
}
fn wr_tagged_u8(tag_id: uint, v: u8) {
self.wr_tagged_bytes(tag_id, &[v]);
}
fn wr_tagged_i64(tag_id: uint, v: i64) {
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do io::u64_to_be_bytes(v as u64, 8u) |v| {
self.wr_tagged_bytes(tag_id, v);
}
}
fn wr_tagged_i32(tag_id: uint, v: i32) {
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do io::u64_to_be_bytes(v as u64, 4u) |v| {
self.wr_tagged_bytes(tag_id, v);
}
}
fn wr_tagged_i16(tag_id: uint, v: i16) {
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do io::u64_to_be_bytes(v as u64, 2u) |v| {
self.wr_tagged_bytes(tag_id, v);
}
}
fn wr_tagged_i8(tag_id: uint, v: i8) {
self.wr_tagged_bytes(tag_id, &[v as u8]);
}
fn wr_tagged_str(tag_id: uint, v: ~str) {
// Lame: can't use str::as_bytes() here because the resulting
// vector is NULL-terminated. Annoyingly, the underlying
// writer interface doesn't permit us to write a slice of a
// vector. We need first-class slices, I think.
// str::as_bytes(v) {|b| self.wr_tagged_bytes(tag_id, b); }
self.wr_tagged_bytes(tag_id, str::bytes(v));
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}
fn wr_bytes(b: &[u8]) {
#debug["Write %u bytes", vec::len(b)];
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self.writer.write(b);
}
fn wr_str(s: ~str) {
#debug["Write str: %?", s];
self.writer.write(str::bytes(s));
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}
}
// FIXME (#2743): optionally perform "relaxations" on end_tag to more
// efficiently encode sizes; this is a fixed point iteration
// Set to true to generate more debugging in EBML serialization.
// Totally lame approach.
const debug: bool = true;
enum ebml_serializer_tag {
es_uint, es_u64, es_u32, es_u16, es_u8,
es_int, es_i64, es_i32, es_i16, es_i8,
es_bool,
es_str,
es_f64, es_f32, es_float,
es_enum, es_enum_vid, es_enum_body,
es_vec, es_vec_len, es_vec_elt,
es_label // Used only when debugging
}
impl serializer of serialization::serializer for ebml::writer {
fn emit_nil() {}
// used internally to emit things like the vector length and so on
fn _emit_tagged_uint(t: ebml_serializer_tag, v: uint) {
assert v <= 0xFFFF_FFFF_u;
self.wr_tagged_u32(t as uint, v as u32);
}
fn _emit_label(label: ~str) {
// There are various strings that we have access to, such as
// the name of a record field, which do not actually appear in
// the serialized EBML (normally). This is just for
// efficiency. When debugging, though, we can emit such
// labels and then they will be checked by deserializer to
// try and check failures more quickly.
if debug { self.wr_tagged_str(es_label as uint, label) }
}
fn emit_uint(v: uint) { self.wr_tagged_u64(es_uint as uint, v as u64); }
fn emit_u64(v: u64) { self.wr_tagged_u64(es_u64 as uint, v); }
fn emit_u32(v: u32) { self.wr_tagged_u32(es_u32 as uint, v); }
fn emit_u16(v: u16) { self.wr_tagged_u16(es_u16 as uint, v); }
fn emit_u8(v: u8) { self.wr_tagged_u8 (es_u8 as uint, v); }
fn emit_int(v: int) { self.wr_tagged_i64(es_int as uint, v as i64); }
fn emit_i64(v: i64) { self.wr_tagged_i64(es_i64 as uint, v); }
fn emit_i32(v: i32) { self.wr_tagged_i32(es_i32 as uint, v); }
fn emit_i16(v: i16) { self.wr_tagged_i16(es_i16 as uint, v); }
fn emit_i8(v: i8) { self.wr_tagged_i8 (es_i8 as uint, v); }
fn emit_bool(v: bool) { self.wr_tagged_u8(es_bool as uint, v as u8) }
// FIXME (#2742): implement these
fn emit_f64(_v: f64) { fail ~"Unimplemented: serializing an f64"; }
fn emit_f32(_v: f32) { fail ~"Unimplemented: serializing an f32"; }
fn emit_float(_v: float) { fail ~"Unimplemented: serializing a float"; }
fn emit_str(v: ~str) { self.wr_tagged_str(es_str as uint, v) }
fn emit_enum(name: ~str, f: fn()) {
self._emit_label(name);
self.wr_tag(es_enum as uint, f)
}
fn emit_enum_variant(_v_name: ~str, v_id: uint, _cnt: uint, f: fn()) {
self._emit_tagged_uint(es_enum_vid, v_id);
self.wr_tag(es_enum_body as uint, f)
}
fn emit_enum_variant_arg(_idx: uint, f: fn()) { f() }
fn emit_vec(len: uint, f: fn()) {
do self.wr_tag(es_vec as uint) {
self._emit_tagged_uint(es_vec_len, len);
f()
}
}
fn emit_vec_elt(_idx: uint, f: fn()) {
self.wr_tag(es_vec_elt as uint, f)
}
fn emit_box(f: fn()) { f() }
fn emit_uniq(f: fn()) { f() }
fn emit_rec(f: fn()) { f() }
fn emit_rec_field(f_name: ~str, _f_idx: uint, f: fn()) {
self._emit_label(f_name);
f()
}
fn emit_tup(_sz: uint, f: fn()) { f() }
fn emit_tup_elt(_idx: uint, f: fn()) { f() }
}
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type ebml_deserializer = {mut parent: ebml::doc,
mut pos: uint};
fn ebml_deserializer(d: ebml::doc) -> ebml_deserializer {
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{mut parent: d, mut pos: d.start}
}
impl deserializer of serialization::deserializer for ebml_deserializer {
fn _check_label(lbl: ~str) {
if self.pos < self.parent.end {
let {tag: r_tag, doc: r_doc} =
ebml::doc_at(self.parent.data, self.pos);
if r_tag == (es_label as uint) {
self.pos = r_doc.end;
let str = ebml::doc_as_str(r_doc);
if lbl != str {
fail #fmt["Expected label %s but found %s", lbl, str];
}
}
}
}
fn next_doc(exp_tag: ebml_serializer_tag) -> ebml::doc {
#debug[". next_doc(exp_tag=%?)", exp_tag];
if self.pos >= self.parent.end {
fail ~"no more documents in current node!";
}
let {tag: r_tag, doc: r_doc} =
ebml::doc_at(self.parent.data, self.pos);
#debug["self.parent=%?-%? self.pos=%? r_tag=%? r_doc=%?-%?",
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copy self.parent.start, copy self.parent.end,
copy self.pos, r_tag, r_doc.start, r_doc.end];
if r_tag != (exp_tag as uint) {
fail #fmt["expected EMBL doc with tag %? but found tag %?",
exp_tag, r_tag];
}
if r_doc.end > self.parent.end {
fail #fmt["invalid EBML, child extends to 0x%x, parent to 0x%x",
r_doc.end, self.parent.end];
}
self.pos = r_doc.end;
ret r_doc;
}
fn push_doc<T: copy>(d: ebml::doc, f: fn() -> T) -> T{
let old_parent = self.parent;
let old_pos = self.pos;
self.parent = d;
self.pos = d.start;
let r = f();
self.parent = old_parent;
self.pos = old_pos;
ret r;
}
fn _next_uint(exp_tag: ebml_serializer_tag) -> uint {
let r = ebml::doc_as_u32(self.next_doc(exp_tag));
#debug["_next_uint exp_tag=%? result=%?", exp_tag, r];
ret r as uint;
}
fn read_nil() -> () { () }
fn read_u64() -> u64 { ebml::doc_as_u64(self.next_doc(es_u64)) }
fn read_u32() -> u32 { ebml::doc_as_u32(self.next_doc(es_u32)) }
fn read_u16() -> u16 { ebml::doc_as_u16(self.next_doc(es_u16)) }
fn read_u8 () -> u8 { ebml::doc_as_u8 (self.next_doc(es_u8 )) }
fn read_uint() -> uint {
let v = ebml::doc_as_u64(self.next_doc(es_uint));
if v > (core::uint::max_value as u64) {
fail #fmt["uint %? too large for this architecture", v];
}
ret v as uint;
}
fn read_i64() -> i64 { ebml::doc_as_u64(self.next_doc(es_i64)) as i64 }
fn read_i32() -> i32 { ebml::doc_as_u32(self.next_doc(es_i32)) as i32 }
fn read_i16() -> i16 { ebml::doc_as_u16(self.next_doc(es_i16)) as i16 }
fn read_i8 () -> i8 { ebml::doc_as_u8 (self.next_doc(es_i8 )) as i8 }
fn read_int() -> int {
let v = ebml::doc_as_u64(self.next_doc(es_int)) as i64;
if v > (int::max_value as i64) || v < (int::min_value as i64) {
fail #fmt["int %? out of range for this architecture", v];
}
ret v as int;
}
fn read_bool() -> bool { ebml::doc_as_u8(self.next_doc(es_bool)) as bool }
fn read_f64() -> f64 { fail ~"read_f64()"; }
fn read_f32() -> f32 { fail ~"read_f32()"; }
fn read_float() -> float { fail ~"read_float()"; }
fn read_str() -> ~str { ebml::doc_as_str(self.next_doc(es_str)) }
// Compound types:
fn read_enum<T:copy>(name: ~str, f: fn() -> T) -> T {
#debug["read_enum(%s)", name];
self._check_label(name);
self.push_doc(self.next_doc(es_enum), f)
}
fn read_enum_variant<T:copy>(f: fn(uint) -> T) -> T {
#debug["read_enum_variant()"];
let idx = self._next_uint(es_enum_vid);
#debug[" idx=%u", idx];
do self.push_doc(self.next_doc(es_enum_body)) {
f(idx)
}
}
fn read_enum_variant_arg<T:copy>(idx: uint, f: fn() -> T) -> T {
#debug["read_enum_variant_arg(idx=%u)", idx];
f()
}
fn read_vec<T:copy>(f: fn(uint) -> T) -> T {
#debug["read_vec()"];
do self.push_doc(self.next_doc(es_vec)) {
let len = self._next_uint(es_vec_len);
#debug[" len=%u", len];
f(len)
}
}
fn read_vec_elt<T:copy>(idx: uint, f: fn() -> T) -> T {
#debug["read_vec_elt(idx=%u)", idx];
self.push_doc(self.next_doc(es_vec_elt), f)
}
fn read_box<T:copy>(f: fn() -> T) -> T {
#debug["read_box()"];
f()
}
fn read_uniq<T:copy>(f: fn() -> T) -> T {
#debug["read_uniq()"];
f()
}
fn read_rec<T:copy>(f: fn() -> T) -> T {
#debug["read_rec()"];
f()
}
fn read_rec_field<T:copy>(f_name: ~str, f_idx: uint, f: fn() -> T) -> T {
#debug["read_rec_field(%s, idx=%u)", f_name, f_idx];
self._check_label(f_name);
f()
}
fn read_tup<T:copy>(sz: uint, f: fn() -> T) -> T {
#debug["read_tup(sz=%u)", sz];
f()
}
fn read_tup_elt<T:copy>(idx: uint, f: fn() -> T) -> T {
#debug["read_tup_elt(idx=%u)", idx];
f()
}
}
// ___________________________________________________________________________
// Testing
#[test]
fn test_option_int() {
fn serialize_1<S: serialization::serializer>(s: S, v: int) {
s.emit_i64(v as i64);
}
fn serialize_0<S: serialization::serializer>(s: S, v: option<int>) {
do s.emit_enum(~"core::option::t") {
alt v {
none {
s.emit_enum_variant(~"core::option::none", 0u, 0u, || { } );
}
some(v0) {
do s.emit_enum_variant(~"core::option::some", 1u, 1u) {
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s.emit_enum_variant_arg(0u, || serialize_1(s, v0));
}
}
}
}
}
fn deserialize_1<S: serialization::deserializer>(s: S) -> int {
s.read_i64() as int
}
fn deserialize_0<S: serialization::deserializer>(s: S) -> option<int> {
do s.read_enum(~"core::option::t") {
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do s.read_enum_variant |i| {
alt check i {
0u { none }
1u {
let v0 = do s.read_enum_variant_arg(0u) {
deserialize_1(s)
};
some(v0)
}
}
}
}
}
fn test_v(v: option<int>) {
#debug["v == %?", v];
let mbuf = io::mem_buffer();
let ebml_w = ebml::writer(io::mem_buffer_writer(mbuf));
serialize_0(ebml_w, v);
let ebml_doc = ebml::doc(@io::mem_buffer_buf(mbuf));
let deser = ebml_deserializer(ebml_doc);
let v1 = deserialize_0(deser);
#debug["v1 == %?", v1];
assert v == v1;
}
test_v(some(22));
test_v(none);
test_v(some(3));
}