rust-bitcoin-unsafe-fast/src/internal_macros.rs

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2014-07-18 13:56:17 +00:00
// Rust Bitcoin Library
// Written in 2014 by
// Andrew Poelstra <apoelstra@wpsoftware.net>
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//
// To the extent possible under law, the author(s) have dedicated all
// copyright and related and neighboring rights to this software to
// the public domain worldwide. This software is distributed without
// any warranty.
//
// You should have received a copy of the CC0 Public Domain Dedication
// along with this software.
// If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.
//
macro_rules! impl_consensus_encoding {
($thing:ident, $($field:ident),+) => (
impl<S: ::network::serialize::SimpleEncoder> ::network::encodable::ConsensusEncodable<S> for $thing {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
$( try!(self.$field.consensus_encode(s)); )+
Ok(())
}
}
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impl<D: ::network::serialize::SimpleDecoder> ::network::encodable::ConsensusDecodable<D> for $thing {
#[inline]
fn consensus_decode(d: &mut D) -> Result<$thing, D::Error> {
use network::encodable::ConsensusDecodable;
Ok($thing {
$( $field: try!(ConsensusDecodable::consensus_decode(d)), )+
})
}
}
);
}
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macro_rules! impl_newtype_consensus_encoding {
($thing:ident) => (
impl<S: ::network::serialize::SimpleEncoder> ::network::encodable::ConsensusEncodable<S> for $thing {
#[inline]
fn consensus_encode(&self, s: &mut S) -> Result<(), S::Error> {
let &$thing(ref data) = self;
data.consensus_encode(s)
}
}
impl<D: ::network::serialize::SimpleDecoder> ::network::encodable::ConsensusDecodable<D> for $thing {
#[inline]
fn consensus_decode(d: &mut D) -> Result<$thing, D::Error> {
Ok($thing(try!(ConsensusDecodable::consensus_decode(d))))
}
}
);
}
macro_rules! impl_array_newtype {
($thing:ident, $ty:ty, $len:expr) => {
impl $thing {
#[inline]
/// Converts the object to a raw pointer
pub fn as_ptr(&self) -> *const $ty {
let &$thing(ref dat) = self;
dat.as_ptr()
}
#[inline]
/// Converts the object to a mutable raw pointer
pub fn as_mut_ptr(&mut self) -> *mut $ty {
let &mut $thing(ref mut dat) = self;
dat.as_mut_ptr()
}
#[inline]
/// Returns the length of the object as an array
pub fn len(&self) -> usize { $len }
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#[inline]
/// Returns whether the object, as an array, is empty. Always false.
pub fn is_empty(&self) -> bool { false }
}
impl<'a> From<&'a [$ty]> for $thing {
fn from(data: &'a [$ty]) -> $thing {
assert_eq!(data.len(), $len);
let mut ret = [0; $len];
ret.copy_from_slice(&data[..]);
$thing(ret)
}
}
impl ::std::ops::Index<usize> for $thing {
type Output = $ty;
#[inline]
fn index(&self, index: usize) -> &$ty {
let &$thing(ref dat) = self;
&dat[index]
}
}
impl_index_newtype!($thing, $ty);
impl PartialEq for $thing {
#[inline]
fn eq(&self, other: &$thing) -> bool {
&self[..] == &other[..]
}
}
impl Eq for $thing {}
impl PartialOrd for $thing {
#[inline]
fn partial_cmp(&self, other: &$thing) -> Option<::std::cmp::Ordering> {
Some(self.cmp(&other))
}
}
impl Ord for $thing {
#[inline]
fn cmp(&self, other: &$thing) -> ::std::cmp::Ordering {
// manually implement comparison to get little-endian ordering
// (we need this for our numeric types; non-numeric ones shouldn't
// be ordered anyway except to put them in BTrees or whatever, and
// they don't care how we order as long as we're consisistent).
for i in 0..$len {
if self[$len - 1 - i] < other[$len - 1 - i] { return ::std::cmp::Ordering::Less; }
if self[$len - 1 - i] > other[$len - 1 - i] { return ::std::cmp::Ordering::Greater; }
}
::std::cmp::Ordering::Equal
}
}
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#[cfg_attr(feature = "clippy", allow(expl_impl_clone_on_copy))] // we don't define the `struct`, we have to explicitly impl
impl Clone for $thing {
#[inline]
fn clone(&self) -> $thing {
$thing::from(&self[..])
}
}
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impl Copy for $thing {}
impl ::std::hash::Hash for $thing {
#[inline]
fn hash<H>(&self, state: &mut H)
where H: ::std::hash::Hasher
{
(&self[..]).hash(state);
}
fn hash_slice<H>(data: &[$thing], state: &mut H)
where H: ::std::hash::Hasher
{
for d in data.iter() {
(&d[..]).hash(state);
}
}
}
impl ::rand::Rand for $thing {
#[inline]
fn rand<R: ::rand::Rng>(r: &mut R) -> $thing {
$thing(::rand::Rand::rand(r))
}
}
}
}
macro_rules! impl_array_newtype_encodable {
($thing:ident, $ty:ty, $len:expr) => {
impl ::serde::Deserialize for $thing {
fn deserialize<D>(d: &mut D) -> Result<$thing, D::Error>
where D: ::serde::Deserializer
{
// We have to define the Visitor struct inside the function
// to make it local ... what we really need is that it's
// local to the macro, but this is Close Enough.
struct Visitor {
marker: ::std::marker::PhantomData<$thing>,
}
impl ::serde::de::Visitor for Visitor {
type Value = $thing;
#[inline]
fn visit_seq<V>(&mut self, mut v: V) -> Result<$thing, V::Error>
where V: ::serde::de::SeqVisitor
{
let mut ret: [$ty; $len] = [0; $len];
for item in ret.iter_mut() {
*item = match try!(v.visit()) {
Some(c) => c,
None => return Err(::serde::de::Error::end_of_stream())
};
}
try!(v.end());
Ok($thing(ret))
}
}
// Begin actual function
d.visit(Visitor { marker: ::std::marker::PhantomData })
}
}
impl ::serde::Serialize for $thing {
fn serialize<S>(&self, s: &mut S) -> Result<(), S::Error>
where S: ::serde::Serializer
{
let &$thing(ref dat) = self;
(&dat[..]).serialize(s)
}
}
}
}
macro_rules! impl_array_newtype_show {
($thing:ident) => {
impl ::std::fmt::Debug for $thing {
fn fmt(&self, f: &mut ::std::fmt::Formatter) -> ::std::fmt::Result {
write!(f, concat!(stringify!($thing), "({:?})"), &self[..])
}
}
}
}
macro_rules! impl_index_newtype {
($thing:ident, $ty:ty) => {
impl ::std::ops::Index<::std::ops::Range<usize>> for $thing {
type Output = [$ty];
#[inline]
fn index(&self, index: ::std::ops::Range<usize>) -> &[$ty] {
&self.0[index]
}
}
impl ::std::ops::Index<::std::ops::RangeTo<usize>> for $thing {
type Output = [$ty];
#[inline]
fn index(&self, index: ::std::ops::RangeTo<usize>) -> &[$ty] {
&self.0[index]
}
}
impl ::std::ops::Index<::std::ops::RangeFrom<usize>> for $thing {
type Output = [$ty];
#[inline]
fn index(&self, index: ::std::ops::RangeFrom<usize>) -> &[$ty] {
&self.0[index]
}
}
impl ::std::ops::Index<::std::ops::RangeFull> for $thing {
type Output = [$ty];
#[inline]
fn index(&self, _: ::std::ops::RangeFull) -> &[$ty] {
&self.0[..]
}
}
}
}
macro_rules! display_from_debug {
($thing:ident) => {
impl ::std::fmt::Display for $thing {
fn fmt(&self, f: &mut ::std::fmt::Formatter) -> Result<(), ::std::fmt::Error> {
::std::fmt::Debug::fmt(self, f)
}
}
}
}
#[cfg(test)]
macro_rules! hex_script (($s:expr) => (::blockdata::script::Script::from($s.from_hex().unwrap())));
#[cfg(test)]
macro_rules! hex_hash (($s:expr) => (::util::hash::Sha256dHash::from(&$s.from_hex().unwrap()[..])));
// Macros to replace serde's codegen while that is not stable
// Taken from rust-jsonrpc 8a50735712cb7870990314cc150ab9c2955dbfd5
#[macro_export]
macro_rules! __rust_jsonrpc_internal__define_anything_type {
() => (
struct Anything;
struct AnythingVisitor;
impl ::serde::de::Visitor for AnythingVisitor {
type Value = Anything;
fn visit_bool<E>(&mut self, _: bool) -> Result<Anything, E> { Ok(Anything) }
fn visit_i64<E>(&mut self, _: i64) -> Result<Anything, E> { Ok(Anything) }
fn visit_u64<E>(&mut self, _: u64) -> Result<Anything, E> { Ok(Anything) }
fn visit_f64<E>(&mut self, _: f64) -> Result<Anything, E> { Ok(Anything) }
fn visit_str<E>(&mut self, _: &str) -> Result<Anything, E> { Ok(Anything) }
fn visit_string<E>(&mut self, _: String) -> Result<Anything, E> { Ok(Anything) }
fn visit_unit<E>(&mut self) -> Result<Anything, E> { Ok(Anything) }
fn visit_none<E>(&mut self) -> Result<Anything, E> { Ok(Anything) }
fn visit_some<D: ::serde::de::Deserializer>(&mut self, d: &mut D) -> Result<Anything, D::Error> {
serde::de::Deserialize::deserialize(d)
}
fn visit_seq<V: ::serde::de::SeqVisitor>(&mut self, v: V) -> Result<Anything, V::Error> {
let _: Vec<Anything> = try!(::serde::de::impls::VecVisitor::new().visit_seq(v));
Ok(Anything)
}
fn visit_map<V: ::serde::de::MapVisitor>(&mut self, mut v: V) -> Result<Anything, V::Error> {
while let Some((Anything, Anything)) = try!(v.visit()) { }
try!(v.end());
Ok(Anything)
}
}
impl ::serde::Deserialize for Anything {
fn deserialize<D>(deserializer: &mut D) -> Result<Anything, D::Error>
where D: ::serde::de::Deserializer
{
deserializer.visit(AnythingVisitor)
}
}
)
}
#[macro_export]
macro_rules! serde_struct_impl {
($name:ident, $($fe:ident $(<- $alt:expr)*),*) => (
impl ::serde::Deserialize for $name {
fn deserialize<D>(deserializer: &mut D) -> Result<$name, D::Error>
where D: serde::de::Deserializer
{
// begin type defs
__rust_jsonrpc_internal__define_anything_type!();
#[allow(non_camel_case_types)]
enum Enum { Unknown__Field, $($fe),* }
struct EnumVisitor;
impl ::serde::de::Visitor for EnumVisitor {
type Value = Enum;
fn visit_str<E>(&mut self, value: &str) -> Result<Enum, E>
where E: ::serde::de::Error
{
match value {
$(
stringify!($fe) => Ok(Enum::$fe)
$(, $alt => Ok(Enum::$fe))*
),*,
_ => Ok(Enum::Unknown__Field)
}
}
}
impl ::serde::Deserialize for Enum {
fn deserialize<D>(deserializer: &mut D) -> Result<Enum, D::Error>
where D: ::serde::de::Deserializer
{
deserializer.visit_str(EnumVisitor)
}
}
struct Visitor;
impl ::serde::de::Visitor for Visitor {
type Value = $name;
fn visit_map<V>(&mut self, mut v: V) -> Result<$name, V::Error>
where V: ::serde::de::MapVisitor
{
$(let mut $fe = None;)*
loop {
match try!(v.visit_key()) {
Some(Enum::Unknown__Field) => { let _: Anything = try!(v.visit_value()); }
$(Some(Enum::$fe) => { $fe = Some(try!(v.visit_value())); })*
None => { break; }
}
}
$(let $fe = match $fe {
Some(x) => x,
None => try!(v.missing_field(stringify!($fe))),
};)*
try!(v.end());
Ok($name{ $($fe: $fe),* })
}
}
// end type defs
static FIELDS: &'static [&'static str] = &[$(stringify!($fe)),*];
deserializer.visit_struct(stringify!($name), FIELDS, Visitor)
}
}
impl ::serde::Serialize for $name {
fn serialize<S>(&self, serializer: &mut S) -> Result<(), S::Error>
where S: ::serde::Serializer
{
// begin type defs
#[repr(u16)]
#[derive(Copy, Clone)]
#[allow(non_camel_case_types)]
#[allow(dead_code)]
enum State { $($fe),* , Finished }
struct MapVisitor<'a> {
value: &'a $name,
state: State,
}
impl<'a> ::serde::ser::MapVisitor for MapVisitor<'a> {
fn visit<S>(&mut self, serializer: &mut S) -> Result<Option<()>, S::Error>
where S: ::serde::Serializer
{
match self.state {
$(State::$fe => {
self.state = unsafe { ::std::mem::transmute(self.state as u16 + 1) };
// Use the last alternate name for serialization; in the common case
// with zero or one alternates this does the RIght Thing
let names = [stringify!($fe), $($alt),*];
Ok(Some(try!(serializer.visit_struct_elt(names[names.len() - 1], &self.value.$fe))))
})*
State::Finished => {
Ok(None)
}
}
}
}
// end type defs
serializer.visit_struct(stringify!($name), MapVisitor {
value: self,
state: unsafe { ::std::mem::transmute(0u16) },
})
}
}
)
}
#[macro_export]
macro_rules! serde_struct_enum_impl {
($name:ident,
$($varname:ident, $structname:ident, $($fe:ident $(<- $alt:expr)*),*);*
) => (
impl ::serde::Deserialize for $name {
fn deserialize<D>(deserializer: &mut D) -> Result<$name, D::Error>
where D: serde::de::Deserializer
{
// start type defs
__rust_jsonrpc_internal__define_anything_type!();
$(#[allow(non_camel_case_types)] enum $varname { $($fe),* })*
#[allow(non_camel_case_types)]
enum Enum { Unknown__Field, $($varname($varname)),* }
struct EnumVisitor;
impl ::serde::de::Visitor for EnumVisitor {
type Value = Enum;
fn visit_str<E>(&mut self, value: &str) -> Result<Enum, E>
where E: ::serde::de::Error
{
$($(
if value == stringify!($fe) $(|| value == $alt)* {
Ok(Enum::$varname($varname::$fe))
} else)*)* {
Ok(Enum::Unknown__Field)
}
}
}
impl ::serde::Deserialize for Enum {
fn deserialize<D>(deserializer: &mut D) -> Result<Enum, D::Error>
where D: ::serde::de::Deserializer
{
deserializer.visit_str(EnumVisitor)
}
}
struct Visitor;
impl ::serde::de::Visitor for Visitor {
type Value = $name;
#[allow(non_snake_case)] //for $structname
#[allow(unused_assignments)] // for `$fe = None` hack
fn visit_map<V>(&mut self, mut v: V) -> Result<$name, V::Error>
where V: ::serde::de::MapVisitor
{
$(
$(let mut $fe = None;)*
// In case of multiple variants having the same field, some of
// the above lets will get shadowed. We therefore need to tell
// rustc its type, since it otherwise cannot infer it, causing
// a compilation error. Hence this hack, which the denizens of
// #rust and I had a good laugh over:
if false { let _ = $structname { $($fe: $fe.unwrap()),* }; }
// The above expression moved $fe so we have to reassign it :)
$($fe = None;)*
)*
loop {
match try!(v.visit_key()) {
Some(Enum::Unknown__Field) => { let _: Anything = try!(v.visit_value()); }
$($(Some(Enum::$varname($varname::$fe)) => {
$fe = Some(try!(v.visit_value())); })*)*
None => { break; }
}
}
// try to find a variant for which we have all fields
$(
let mut $structname = true;
$(if $fe.is_none() { $structname = false })*
// if we found one, success. extra fields is not an error,
// it'd be too much of a PITA to manage overlapping field
// sets otherwise.
if $structname {
$(let $fe = $fe.unwrap();)*
try!(v.end());
return Ok($name::$varname($structname { $($fe: $fe),* }))
}
)*
// If we get here we failed
Err(::serde::de::Error::syntax("did not get all fields"))
}
}
// end type defs
static FIELDS: &'static [&'static str] = &[$($(stringify!($fe)),*),*];
deserializer.visit_struct(stringify!($name), FIELDS, Visitor)
}
}
// impl Serialize (and Deserialize, tho we don't need it) for the underlying structs
$( serde_struct_impl!($structname, $($fe $(<- $alt)*),*); )*
// call serialize on the right one
impl ::serde::Serialize for $name {
fn serialize<S>(&self, serializer: &mut S) -> Result<(), S::Error>
where S: ::serde::Serializer
{
match *self {
$($name::$varname(ref x) => x.serialize(serializer)),*
}
}
}
)
}
#[cfg(test)]
mod tests {
use serde;
pub struct Variant1 {
success: bool,
success_message: String
}
pub struct Variant2 {
success: bool,
errors: Vec<String>
}
pub enum Reply {
Good(Variant1),
Bad(Variant2),
}
serde_struct_enum_impl!(Reply,
Good, Variant1, success, success_message;
Bad, Variant2, success, errors
);
}