use xsd_parser::{
quick_xml::{Error, WithDeserializer, WithSerializer},
schema::Namespace,
};
pub const NS_XS: Namespace = Namespace::new_const(b"http://www.w3.org/2001/XMLSchema");
pub const NS_XML: Namespace = Namespace::new_const(b"http://www.w3.org/XML/1998/namespace");
pub const NS_TNS: Namespace = Namespace::new_const(b"http://example.com");
pub type Array = ArrayType;
#[derive(Debug)]
pub struct ArrayType {
pub item: [i32; 5usize],
}
impl WithSerializer for ArrayType {
type Serializer<'x> = quick_xml_serialize::ArrayTypeSerializer<'x>;
fn serializer<'ser>(
&'ser self,
name: Option<&'ser str>,
is_root: bool,
) -> Result<Self::Serializer<'ser>, Error> {
Ok(quick_xml_serialize::ArrayTypeSerializer {
value: self,
state: Box::new(quick_xml_serialize::ArrayTypeSerializerState::Init__),
name: name.unwrap_or("tns:ArrayType"),
is_root,
})
}
}
impl WithDeserializer for ArrayType {
type Deserializer = quick_xml_deserialize::ArrayTypeDeserializer;
}
pub mod quick_xml_deserialize {
use core::mem::replace;
use xsd_parser::quick_xml::{
filter_xmlns_attributes, BytesStart, DeserializeReader, Deserializer, DeserializerArtifact,
DeserializerEvent, DeserializerOutput, DeserializerResult, ElementHandlerOutput, Error,
ErrorKind, Event, WithDeserializer,
};
#[derive(Debug)]
pub struct ArrayTypeDeserializer {
item: Vec<i32>,
state: Box<ArrayTypeDeserializerState>,
}
#[derive(Debug)]
enum ArrayTypeDeserializerState {
Init__,
Next__,
Item(<i32 as WithDeserializer>::Deserializer),
Unknown__,
}
impl ArrayTypeDeserializer {
fn find_suitable<'de, R>(
&mut self,
reader: &R,
event: Event<'de>,
fallback: &mut Option<ArrayTypeDeserializerState>,
) -> Result<ElementHandlerOutput<'de>, Error>
where
R: DeserializeReader,
{
let (Event::Start(x) | Event::Empty(x)) = &event else {
*self.state = fallback
.take()
.unwrap_or(ArrayTypeDeserializerState::Init__);
return Ok(ElementHandlerOutput::return_to_parent(event, false));
};
if matches!(
reader.resolve_local_name(x.name(), &super::NS_TNS),
Some(b"Item")
) {
let output = <i32 as WithDeserializer>::Deserializer::init(reader, event)?;
return self.handle_item(reader, output, &mut *fallback);
}
*self.state = fallback
.take()
.unwrap_or(ArrayTypeDeserializerState::Init__);
Ok(ElementHandlerOutput::return_to_parent(event, false))
}
fn from_bytes_start<R>(reader: &R, bytes_start: &BytesStart<'_>) -> Result<Self, Error>
where
R: DeserializeReader,
{
for attrib in filter_xmlns_attributes(bytes_start) {
let attrib = attrib?;
reader.raise_unexpected_attrib(attrib)?;
}
Ok(Self {
item: Vec::new(),
state: Box::new(ArrayTypeDeserializerState::Init__),
})
}
fn finish_state<R>(
&mut self,
reader: &R,
state: ArrayTypeDeserializerState,
) -> Result<(), Error>
where
R: DeserializeReader,
{
use ArrayTypeDeserializerState as S;
match state {
S::Item(deserializer) => self.store_item(deserializer.finish(reader)?)?,
_ => (),
}
Ok(())
}
fn store_item(&mut self, value: i32) -> Result<(), Error> {
self.item.push(value);
Ok(())
}
fn handle_item<'de, R>(
&mut self,
reader: &R,
output: DeserializerOutput<'de, i32>,
fallback: &mut Option<ArrayTypeDeserializerState>,
) -> Result<ElementHandlerOutput<'de>, Error>
where
R: DeserializeReader,
{
let DeserializerOutput {
artifact,
event,
allow_any,
} = output;
if artifact.is_none() {
let ret = ElementHandlerOutput::from_event(event, allow_any);
*self.state = match ret {
ElementHandlerOutput::Continue { .. } => ArrayTypeDeserializerState::Next__,
ElementHandlerOutput::Break { .. } => fallback
.take()
.unwrap_or(ArrayTypeDeserializerState::Next__),
};
return Ok(ret);
}
if let Some(fallback) = fallback.take() {
self.finish_state(reader, fallback)?;
}
Ok(match artifact {
DeserializerArtifact::None => unreachable!(),
DeserializerArtifact::Data(data) => {
self.store_item(data)?;
*self.state = ArrayTypeDeserializerState::Next__;
ElementHandlerOutput::from_event(event, allow_any)
}
DeserializerArtifact::Deserializer(deserializer) => {
let ret = ElementHandlerOutput::from_event(event, allow_any);
match &ret {
ElementHandlerOutput::Continue { .. } => {
fallback.get_or_insert(ArrayTypeDeserializerState::Item(deserializer));
*self.state = ArrayTypeDeserializerState::Next__;
}
ElementHandlerOutput::Break { .. } => {
*self.state = ArrayTypeDeserializerState::Item(deserializer);
}
}
ret
}
})
}
}
impl<'de> Deserializer<'de, super::ArrayType> for ArrayTypeDeserializer {
fn init<R>(reader: &R, event: Event<'de>) -> DeserializerResult<'de, super::ArrayType>
where
R: DeserializeReader,
{
reader.init_deserializer_from_start_event(event, Self::from_bytes_start)
}
fn next<R>(
mut self,
reader: &R,
event: Event<'de>,
) -> DeserializerResult<'de, super::ArrayType>
where
R: DeserializeReader,
{
use ArrayTypeDeserializerState as S;
let mut event = event;
let mut fallback = None;
let (event, allow_any) = loop {
let state = replace(&mut *self.state, S::Unknown__);
event = match (state, event) {
(S::Item(deserializer), event) => {
let output = deserializer.next(reader, event)?;
match self.handle_item(reader, output, &mut fallback)? {
ElementHandlerOutput::Continue { event, .. } => event,
ElementHandlerOutput::Break { event, allow_any } => {
break (event, allow_any)
}
}
}
(_, Event::End(_)) => {
return Ok(DeserializerOutput {
artifact: DeserializerArtifact::Data(self.finish(reader)?),
event: DeserializerEvent::None,
allow_any: false,
});
}
(state @ (S::Init__ | S::Next__), event) => {
fallback.get_or_insert(state);
match self.find_suitable(reader, event, &mut fallback)? {
ElementHandlerOutput::Continue { event, .. } => event,
ElementHandlerOutput::Break { event, allow_any } => {
break (event, allow_any)
}
}
}
(S::Unknown__, _) => unreachable!(),
}
};
Ok(DeserializerOutput {
artifact: DeserializerArtifact::Deserializer(self),
event,
allow_any,
})
}
fn finish<R>(mut self, reader: &R) -> Result<super::ArrayType, Error>
where
R: DeserializeReader,
{
let state = replace(&mut *self.state, ArrayTypeDeserializerState::Unknown__);
self.finish_state(reader, state)?;
Ok(super::ArrayType {
item: self
.item
.try_into()
.map_err(|vec: Vec<_>| ErrorKind::InsufficientSize {
min: 5usize,
max: 5usize,
actual: vec.len(),
})?,
})
}
}
}
pub mod quick_xml_serialize {
use core::iter::Iterator;
use xsd_parser::quick_xml::{BytesEnd, BytesStart, Error, Event, IterSerializer};
#[derive(Debug)]
pub struct ArrayTypeSerializer<'ser> {
pub(super) value: &'ser super::ArrayType,
pub(super) state: Box<ArrayTypeSerializerState<'ser>>,
pub(super) name: &'ser str,
pub(super) is_root: bool,
}
#[derive(Debug)]
pub(super) enum ArrayTypeSerializerState<'ser> {
Init__,
Item(IterSerializer<'ser, &'ser [i32], i32>),
End__,
Done__,
Phantom__(&'ser ()),
}
impl<'ser> ArrayTypeSerializer<'ser> {
fn next_event(&mut self) -> Result<Option<Event<'ser>>, Error> {
loop {
match &mut *self.state {
ArrayTypeSerializerState::Init__ => {
*self.state = ArrayTypeSerializerState::Item(IterSerializer::new(
&self.value.item[..],
Some("tns:Item"),
false,
));
let mut bytes = BytesStart::new(self.name);
if self.is_root {
bytes.push_attribute((&b"xmlns:tns"[..], &super::NS_TNS[..]));
}
return Ok(Some(Event::Start(bytes)));
}
ArrayTypeSerializerState::Item(x) => match x.next().transpose()? {
Some(event) => return Ok(Some(event)),
None => *self.state = ArrayTypeSerializerState::End__,
},
ArrayTypeSerializerState::End__ => {
*self.state = ArrayTypeSerializerState::Done__;
return Ok(Some(Event::End(BytesEnd::new(self.name))));
}
ArrayTypeSerializerState::Done__ => return Ok(None),
ArrayTypeSerializerState::Phantom__(_) => unreachable!(),
}
}
}
}
impl<'ser> Iterator for ArrayTypeSerializer<'ser> {
type Item = Result<Event<'ser>, Error>;
fn next(&mut self) -> Option<Self::Item> {
match self.next_event() {
Ok(Some(event)) => Some(Ok(event)),
Ok(None) => None,
Err(error) => {
*self.state = ArrayTypeSerializerState::Done__;
Some(Err(error))
}
}
}
}
}