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pub use rg3d_core_derive::Visit;
pub mod prelude {
pub use super::{Visit, VisitResult, Visitor};
}
use crate::io::FileLoadError;
use crate::algebra::{Complex, UnitComplex};
use crate::{
algebra::{Matrix3, Matrix4, Quaternion, UnitQuaternion, Vector2, Vector3, Vector4},
io,
pool::{Handle, Pool},
replace_slashes,
};
use byteorder::{LittleEndian, ReadBytesExt, WriteBytesExt};
use std::io::Cursor;
use std::{
any::Any,
cell::{Cell, RefCell},
collections::{hash_map::Entry, HashMap},
fmt::{Display, Formatter},
fs::File,
hash::Hash,
io::{BufWriter, Read, Write},
ops::DerefMut,
path::{Path, PathBuf},
rc::Rc,
string::FromUtf8Error,
sync::{Arc, Mutex, RwLock},
};
use uuid::Uuid;
pub enum FieldKind {
Bool(bool),
U8(u8),
I8(i8),
U16(u16),
I16(i16),
U32(u32),
I32(i32),
U64(u64),
I64(i64),
F32(f32),
F64(f64),
Vector3(Vector3<f32>),
UnitQuaternion(UnitQuaternion<f32>),
Matrix4(Matrix4<f32>),
Data(Vec<u8>),
Matrix3(Matrix3<f32>),
Vector2(Vector2<f32>),
Vector4(Vector4<f32>),
Uuid(Uuid),
UnitComplex(UnitComplex<f32>),
PodArray {
type_id: u8,
element_size: u32,
bytes: Vec<u8>,
},
}
pub trait Pod: Copy {
fn type_id() -> u8;
}
impl Pod for u8 {
fn type_id() -> u8 {
0
}
}
impl Pod for i8 {
fn type_id() -> u8 {
1
}
}
impl Pod for u16 {
fn type_id() -> u8 {
2
}
}
impl Pod for i16 {
fn type_id() -> u8 {
3
}
}
impl Pod for u32 {
fn type_id() -> u8 {
4
}
}
impl Pod for i32 {
fn type_id() -> u8 {
5
}
}
impl Pod for u64 {
fn type_id() -> u8 {
6
}
}
impl Pod for i64 {
fn type_id() -> u8 {
7
}
}
impl Pod for f32 {
fn type_id() -> u8 {
8
}
}
impl Pod for f64 {
fn type_id() -> u8 {
9
}
}
pub struct PodVecView<'a, T: Pod> {
type_id: u8,
vec: &'a mut Vec<T>,
}
impl<'a, T: Pod> PodVecView<'a, T> {
pub fn from_pod_vec(vec: &'a mut Vec<T>) -> Self {
Self {
type_id: T::type_id(),
vec,
}
}
}
impl<'a, T: Pod> Visit for PodVecView<'a, T> {
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
if visitor.reading {
if let Some(field) = visitor.find_field(name) {
match &field.kind {
FieldKind::PodArray {
type_id,
element_size,
bytes,
} => {
if *type_id == self.type_id {
let mut owned_bytes = bytes.clone();
let len = owned_bytes.len() / (*element_size as usize);
*self.vec = unsafe {
Vec::from_raw_parts(owned_bytes.as_mut_ptr() as *mut T, len, len)
};
std::mem::forget(owned_bytes);
Ok(())
} else {
Err(VisitError::TypeMismatch)
}
}
_ => Err(VisitError::FieldTypeDoesNotMatch),
}
} else {
Err(VisitError::FieldDoesNotExist(name.to_owned()))
}
} else if visitor.find_field(name).is_some() {
Err(VisitError::FieldAlreadyExists(name.to_owned()))
} else {
let node = visitor.current_node();
node.fields.push(Field::new(
name,
FieldKind::PodArray {
type_id: T::type_id(),
element_size: std::mem::size_of::<T>() as u32,
bytes: unsafe {
let mut data = self.vec.clone();
let bytes = Vec::from_raw_parts(
data.as_mut_ptr() as *mut u8,
data.len() * std::mem::size_of::<T>(),
data.capacity() * std::mem::size_of::<T>(),
);
std::mem::forget(data);
bytes
},
},
));
Ok(())
}
}
}
impl FieldKind {
fn as_string(&self) -> String {
match self {
Self::Bool(data) => format!("<bool = {}>, ", data),
Self::U8(data) => format!("<u8 = {}>, ", data),
Self::I8(data) => format!("<i8 = {}>, ", data),
Self::U16(data) => format!("<u16 = {}>, ", data),
Self::I16(data) => format!("<i16 = {}>, ", data),
Self::U32(data) => format!("<u32 = {}>, ", data),
Self::I32(data) => format!("<i32 = {}>, ", data),
Self::U64(data) => format!("<u64 = {}>, ", data),
Self::I64(data) => format!("<i64 = {}>, ", data),
Self::F32(data) => format!("<f32 = {}>, ", data),
Self::F64(data) => format!("<f64 = {}>, ", data),
Self::Vector3(data) => format!("<vec3 = {}; {}; {}>, ", data.x, data.y, data.z),
Self::UnitQuaternion(data) => {
format!("<quat = {}; {}; {}; {}>, ", data.i, data.j, data.k, data.w)
}
Self::Matrix4(data) => {
let mut out = String::from("<mat4 = ");
for f in data.iter() {
out += format!("{}; ", f).as_str();
}
out
}
Self::Data(data) => {
let out = match String::from_utf8(data.clone()) {
Ok(s) => s,
Err(_) => base64::encode(data),
};
format!("<data = {}>, ", out)
}
Self::Matrix3(data) => {
let mut out = String::from("<mat3 = ");
for f in data.iter() {
out += format!("{}; ", f).as_str();
}
out
}
Self::Vector2(data) => format!("<vec2 = {}; {}>, ", data.x, data.y),
Self::Vector4(data) => {
format!("<vec4 = {}; {}; {}; {}>, ", data.x, data.y, data.z, data.w)
}
Self::Uuid(uuid) => uuid.to_string(),
Self::UnitComplex(data) => {
format!("<complex = {}; {}>, ", data.re, data.im)
}
FieldKind::PodArray {
type_id,
element_size,
bytes,
} => {
let base64_encoded = base64::encode(bytes);
format!(
"<podarray = {}; {}; [{}]>",
type_id, element_size, base64_encoded
)
}
}
}
}
macro_rules! impl_field_data {
($type_name:ty, $($kind:tt)*) => {
impl Visit for $type_name {
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
if visitor.reading {
if let Some(field) = visitor.find_field(name) {
match field.kind {
$($kind)*(data) => {
*self = data.clone();
Ok(())
},
_ => Err(VisitError::FieldTypeDoesNotMatch)
}
} else {
Err(VisitError::FieldDoesNotExist(name.to_owned()))
}
} else if visitor.find_field(name).is_some() {
Err(VisitError::FieldAlreadyExists(name.to_owned()))
} else {
let node = visitor.current_node();
node.fields.push(Field::new(name, $($kind)*(self.clone())));
Ok(())
}
}
}
};
}
pub struct Data<'a> {
vec: &'a mut Vec<u8>,
}
impl_field_data!(u64, FieldKind::U64);
impl_field_data!(i64, FieldKind::I64);
impl_field_data!(u32, FieldKind::U32);
impl_field_data!(i32, FieldKind::I32);
impl_field_data!(u16, FieldKind::U16);
impl_field_data!(i16, FieldKind::I16);
impl_field_data!(u8, FieldKind::U8);
impl_field_data!(i8, FieldKind::I8);
impl_field_data!(f32, FieldKind::F32);
impl_field_data!(f64, FieldKind::F64);
impl_field_data!(Vector3<f32>, FieldKind::Vector3);
impl_field_data!(UnitQuaternion<f32>, FieldKind::UnitQuaternion);
impl_field_data!(Matrix4<f32>, FieldKind::Matrix4);
impl_field_data!(bool, FieldKind::Bool);
impl_field_data!(Matrix3<f32>, FieldKind::Matrix3);
impl_field_data!(Vector2<f32>, FieldKind::Vector2);
impl_field_data!(Vector4<f32>, FieldKind::Vector4);
impl_field_data!(Uuid, FieldKind::Uuid);
impl_field_data!(UnitComplex<f32>, FieldKind::UnitComplex);
impl<'a> Visit for Data<'a> {
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
if visitor.reading {
if let Some(field) = visitor.find_field(name) {
match &field.kind {
FieldKind::Data(data) => {
*self.vec = data.clone();
Ok(())
}
_ => Err(VisitError::FieldTypeDoesNotMatch),
}
} else {
Err(VisitError::FieldDoesNotExist(name.to_owned()))
}
} else if visitor.find_field(name).is_some() {
Err(VisitError::FieldAlreadyExists(name.to_owned()))
} else {
let node = visitor.current_node();
node.fields
.push(Field::new(name, FieldKind::Data(self.vec.clone())));
Ok(())
}
}
}
pub struct Field {
name: String,
kind: FieldKind,
}
#[derive(Debug)]
pub enum VisitError {
Io(std::io::Error),
UnknownFieldType(u8),
FieldDoesNotExist(String),
FieldAlreadyExists(String),
RegionAlreadyExists(String),
InvalidCurrentNode,
FieldTypeDoesNotMatch,
RegionDoesNotExist(String),
NoActiveNode,
NotSupportedFormat,
InvalidName,
TypeMismatch,
RefCellAlreadyMutableBorrowed,
User(String),
UnexpectedRcNullIndex,
PoisonedMutex,
FileLoadError(FileLoadError),
}
impl Display for VisitError {
fn fmt(&self, f: &mut Formatter) -> std::fmt::Result {
match self {
Self::Io(io) => write!(f, "io error: {}", io),
Self::UnknownFieldType(type_index) => write!(f, "unknown field type {}", type_index),
Self::FieldDoesNotExist(name) => write!(f, "field does not exists {}", name),
Self::FieldAlreadyExists(name) => write!(f, "field already exists {}", name),
Self::RegionAlreadyExists(name) => write!(f, "region already exists {}", name),
Self::InvalidCurrentNode => write!(f, "invalid current node"),
Self::FieldTypeDoesNotMatch => write!(f, "field type does not match"),
Self::RegionDoesNotExist(name) => write!(f, "region does not exists {}", name),
Self::NoActiveNode => write!(f, "no active node"),
Self::NotSupportedFormat => write!(f, "not supported format"),
Self::InvalidName => write!(f, "invalid name"),
Self::TypeMismatch => write!(f, "type mismatch"),
Self::RefCellAlreadyMutableBorrowed => write!(f, "ref cell already mutable borrowed"),
Self::User(msg) => write!(f, "user defined error: {}", msg),
Self::UnexpectedRcNullIndex => write!(f, "unexpected rc null index"),
Self::PoisonedMutex => write!(f, "attempt to lock poisoned mutex"),
Self::FileLoadError(e) => write!(f, "file load error: {:?}", e),
}
}
}
impl<'a, T> From<std::sync::PoisonError<std::sync::MutexGuard<'a, T>>> for VisitError {
fn from(_: std::sync::PoisonError<std::sync::MutexGuard<'a, T>>) -> Self {
Self::PoisonedMutex
}
}
impl<'a, T> From<std::sync::PoisonError<&mut T>> for VisitError {
fn from(_: std::sync::PoisonError<&mut T>) -> Self {
Self::PoisonedMutex
}
}
impl<'a, T> From<std::sync::PoisonError<std::sync::RwLockWriteGuard<'_, T>>> for VisitError {
fn from(_: std::sync::PoisonError<std::sync::RwLockWriteGuard<'_, T>>) -> Self {
Self::PoisonedMutex
}
}
impl From<std::io::Error> for VisitError {
fn from(io_err: std::io::Error) -> Self {
Self::Io(io_err)
}
}
impl From<FromUtf8Error> for VisitError {
fn from(_: FromUtf8Error) -> Self {
Self::InvalidName
}
}
impl From<String> for VisitError {
fn from(s: String) -> Self {
Self::User(s)
}
}
impl From<FileLoadError> for VisitError {
fn from(e: FileLoadError) -> Self {
Self::FileLoadError(e)
}
}
pub type VisitResult = Result<(), VisitError>;
impl Field {
pub fn new(name: &str, kind: FieldKind) -> Self {
Self {
name: name.to_owned(),
kind,
}
}
fn save(field: &Field, file: &mut dyn Write) -> VisitResult {
let name = field.name.as_bytes();
file.write_u32::<LittleEndian>(name.len() as u32)?;
file.write_all(name)?;
match &field.kind {
FieldKind::U8(data) => {
file.write_u8(1)?;
file.write_u8(*data)?;
}
FieldKind::I8(data) => {
file.write_i8(2)?;
file.write_i8(*data)?;
}
FieldKind::U16(data) => {
file.write_u8(3)?;
file.write_u16::<LittleEndian>(*data)?;
}
FieldKind::I16(data) => {
file.write_u8(4)?;
file.write_i16::<LittleEndian>(*data)?;
}
FieldKind::U32(data) => {
file.write_u8(5)?;
file.write_u32::<LittleEndian>(*data)?;
}
FieldKind::I32(data) => {
file.write_u8(6)?;
file.write_i32::<LittleEndian>(*data)?;
}
FieldKind::U64(data) => {
file.write_u8(7)?;
file.write_u64::<LittleEndian>(*data)?;
}
FieldKind::I64(data) => {
file.write_u8(8)?;
file.write_i64::<LittleEndian>(*data)?;
}
FieldKind::F32(data) => {
file.write_u8(9)?;
file.write_f32::<LittleEndian>(*data)?;
}
FieldKind::F64(data) => {
file.write_u8(10)?;
file.write_f64::<LittleEndian>(*data)?;
}
FieldKind::Vector3(data) => {
file.write_u8(11)?;
file.write_f32::<LittleEndian>(data.x)?;
file.write_f32::<LittleEndian>(data.y)?;
file.write_f32::<LittleEndian>(data.z)?;
}
FieldKind::UnitQuaternion(data) => {
file.write_u8(12)?;
file.write_f32::<LittleEndian>(data.i)?;
file.write_f32::<LittleEndian>(data.j)?;
file.write_f32::<LittleEndian>(data.k)?;
file.write_f32::<LittleEndian>(data.w)?;
}
FieldKind::Matrix4(data) => {
file.write_u8(13)?;
for f in data.iter() {
file.write_f32::<LittleEndian>(*f)?;
}
}
FieldKind::Data(data) => {
file.write_u8(14)?;
file.write_u32::<LittleEndian>(data.len() as u32)?;
file.write_all(data.as_slice())?;
}
FieldKind::Bool(data) => {
file.write_u8(15)?;
file.write_u8(if *data { 1 } else { 0 })?;
}
FieldKind::Matrix3(data) => {
file.write_u8(16)?;
for f in data.iter() {
file.write_f32::<LittleEndian>(*f)?;
}
}
FieldKind::Vector2(data) => {
file.write_u8(17)?;
file.write_f32::<LittleEndian>(data.x)?;
file.write_f32::<LittleEndian>(data.y)?;
}
FieldKind::Vector4(data) => {
file.write_u8(18)?;
file.write_f32::<LittleEndian>(data.x)?;
file.write_f32::<LittleEndian>(data.y)?;
file.write_f32::<LittleEndian>(data.z)?;
file.write_f32::<LittleEndian>(data.w)?;
}
FieldKind::Uuid(uuid) => {
file.write_u8(19)?;
file.write_all(uuid.as_bytes())?;
}
FieldKind::UnitComplex(c) => {
file.write_u8(20)?;
file.write_f32::<LittleEndian>(c.re)?;
file.write_f32::<LittleEndian>(c.im)?;
}
FieldKind::PodArray {
type_id,
element_size,
bytes,
} => {
file.write_u8(21)?;
file.write_u8(*type_id)?;
file.write_u32::<LittleEndian>(*element_size)?;
file.write_u64::<LittleEndian>(bytes.len() as u64)?;
file.write_all(bytes)?;
}
}
Ok(())
}
fn load(file: &mut dyn Read) -> Result<Field, VisitError> {
let name_len = file.read_u32::<LittleEndian>()? as usize;
let mut raw_name = Vec::with_capacity(name_len);
unsafe { raw_name.set_len(name_len) };
file.read_exact(raw_name.as_mut_slice())?;
let id = file.read_u8()?;
Ok(Field::new(
String::from_utf8(raw_name)?.as_str(),
match id {
1 => FieldKind::U8(file.read_u8()?),
2 => FieldKind::I8(file.read_i8()?),
3 => FieldKind::U16(file.read_u16::<LittleEndian>()?),
4 => FieldKind::I16(file.read_i16::<LittleEndian>()?),
5 => FieldKind::U32(file.read_u32::<LittleEndian>()?),
6 => FieldKind::I32(file.read_i32::<LittleEndian>()?),
7 => FieldKind::U64(file.read_u64::<LittleEndian>()?),
8 => FieldKind::I64(file.read_i64::<LittleEndian>()?),
9 => FieldKind::F32(file.read_f32::<LittleEndian>()?),
10 => FieldKind::F64(file.read_f64::<LittleEndian>()?),
11 => FieldKind::Vector3({
let x = file.read_f32::<LittleEndian>()?;
let y = file.read_f32::<LittleEndian>()?;
let z = file.read_f32::<LittleEndian>()?;
Vector3::new(x, y, z)
}),
12 => FieldKind::UnitQuaternion({
let x = file.read_f32::<LittleEndian>()?;
let y = file.read_f32::<LittleEndian>()?;
let z = file.read_f32::<LittleEndian>()?;
let w = file.read_f32::<LittleEndian>()?;
UnitQuaternion::new_normalize(Quaternion::new(w, x, y, z))
}),
13 => FieldKind::Matrix4({
let mut f = [0.0f32; 16];
for n in &mut f {
*n = file.read_f32::<LittleEndian>()?;
}
Matrix4::from_row_slice(&f)
}),
14 => FieldKind::Data({
let len = file.read_u32::<LittleEndian>()? as usize;
let mut vec = Vec::with_capacity(len);
unsafe { vec.set_len(len) };
file.read_exact(vec.as_mut_slice())?;
vec
}),
15 => FieldKind::Bool(file.read_u8()? != 0),
16 => FieldKind::Matrix3({
let mut f = [0.0f32; 9];
for n in &mut f {
*n = file.read_f32::<LittleEndian>()?;
}
Matrix3::from_row_slice(&f)
}),
17 => FieldKind::Vector2({
let x = file.read_f32::<LittleEndian>()?;
let y = file.read_f32::<LittleEndian>()?;
Vector2::new(x, y)
}),
18 => FieldKind::Vector4({
let x = file.read_f32::<LittleEndian>()?;
let y = file.read_f32::<LittleEndian>()?;
let z = file.read_f32::<LittleEndian>()?;
let w = file.read_f32::<LittleEndian>()?;
Vector4::new(x, y, z, w)
}),
19 => FieldKind::Uuid({
let mut bytes = uuid::Bytes::default();
file.read_exact(&mut bytes)?;
Uuid::from_bytes(bytes)
}),
20 => FieldKind::UnitComplex({
let re = file.read_f32::<LittleEndian>()?;
let im = file.read_f32::<LittleEndian>()?;
UnitComplex::from_complex(Complex::new(re, im))
}),
21 => {
let type_id = file.read_u8()?;
let element_size = file.read_u32::<LittleEndian>()?;
let data_size = file.read_u64::<LittleEndian>()?;
let mut bytes = vec![0; data_size as usize];
file.read_exact(&mut bytes)?;
FieldKind::PodArray {
type_id,
element_size,
bytes,
}
}
_ => return Err(VisitError::UnknownFieldType(id)),
},
))
}
fn as_string(&self) -> String {
format!("{}{}", self.name, self.kind.as_string())
}
}
pub struct Node {
name: String,
fields: Vec<Field>,
parent: Handle<Node>,
children: Vec<Handle<Node>>,
}
impl Node {
fn new(name: &str, parent: Handle<Node>) -> Self {
Self {
name: name.to_owned(),
fields: Vec::new(),
parent,
children: Vec::new(),
}
}
}
impl Default for Node {
fn default() -> Self {
Self {
name: String::new(),
fields: Vec::new(),
parent: Handle::NONE,
children: Vec::new(),
}
}
}
pub struct Visitor {
nodes: Pool<Node>,
rc_map: HashMap<u64, Rc<dyn Any>>,
arc_map: HashMap<u64, Arc<dyn Any + Send + Sync>>,
reading: bool,
current_node: Handle<Node>,
root: Handle<Node>,
}
pub trait Visit {
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult;
}
impl Default for Visitor {
fn default() -> Self {
Self::new()
}
}
impl Visitor {
const MAGIC: &'static str = "RG3D";
pub fn new() -> Self {
let mut nodes = Pool::new();
let root = nodes.spawn(Node::new("__ROOT__", Handle::NONE));
Self {
nodes,
rc_map: HashMap::new(),
arc_map: HashMap::new(),
reading: false,
current_node: root,
root,
}
}
fn find_field(&mut self, name: &str) -> Option<&mut Field> {
let node = self.nodes.borrow_mut(self.current_node);
for field in node.fields.iter_mut() {
if field.name == name {
return Some(field);
}
}
None
}
pub fn is_reading(&self) -> bool {
self.reading
}
fn current_node(&mut self) -> &mut Node {
self.nodes.borrow_mut(self.current_node)
}
pub fn enter_region(&mut self, name: &str) -> VisitResult {
if self.reading {
let node = self.nodes.borrow(self.current_node);
let mut region = Handle::NONE;
for child_handle in node.children.iter() {
let child = self.nodes.borrow(*child_handle);
if child.name == name {
region = *child_handle;
break;
}
}
if region.is_some() {
self.current_node = region;
Ok(())
} else {
Err(VisitError::RegionDoesNotExist(name.to_owned()))
}
} else {
let node = self.nodes.borrow(self.current_node);
for child_handle in node.children.iter() {
let child = self.nodes.borrow(*child_handle);
if child.name == name {
return Err(VisitError::RegionAlreadyExists(name.to_owned()));
}
}
let node_handle = self.nodes.spawn(Node::new(name, self.current_node));
self.nodes
.borrow_mut(self.current_node)
.children
.push(node_handle);
self.current_node = node_handle;
Ok(())
}
}
pub fn leave_region(&mut self) -> VisitResult {
self.current_node = self.nodes.borrow(self.current_node).parent;
if self.current_node.is_none() {
Err(VisitError::NoActiveNode)
} else {
Ok(())
}
}
fn print_node(&self, node_handle: Handle<Node>, nesting: usize, out_string: &mut String) {
let offset = (0..nesting).map(|_| "\t").collect::<String>();
let node = self.nodes.borrow(node_handle);
*out_string += format!(
"{}{}[Fields={}, Children={}]: ",
offset,
node.name,
node.fields.len(),
node.children.len()
)
.as_str();
for field in node.fields.iter() {
*out_string += field.as_string().as_str();
}
*out_string += "\n";
for child_handle in node.children.iter() {
self.print_node(*child_handle, nesting + 1, out_string);
}
}
pub fn save_text(&self) -> String {
let mut out_string = String::new();
self.print_node(self.root, 0, &mut out_string);
out_string
}
pub fn save_binary<P: AsRef<Path>>(&self, path: P) -> VisitResult {
let mut writer = BufWriter::new(File::create(path)?);
writer.write_all(Self::MAGIC.as_bytes())?;
let mut stack = vec![self.root];
while let Some(node_handle) = stack.pop() {
let node = self.nodes.borrow(node_handle);
let name = node.name.as_bytes();
writer.write_u32::<LittleEndian>(name.len() as u32)?;
writer.write_all(name)?;
writer.write_u32::<LittleEndian>(node.fields.len() as u32)?;
for field in node.fields.iter() {
Field::save(field, &mut writer)?
}
writer.write_u32::<LittleEndian>(node.children.len() as u32)?;
stack.extend_from_slice(&node.children);
}
Ok(())
}
fn load_node_binary(&mut self, file: &mut dyn Read) -> Result<Handle<Node>, VisitError> {
let name_len = file.read_u32::<LittleEndian>()? as usize;
let mut raw_name = Vec::with_capacity(name_len);
unsafe { raw_name.set_len(name_len) };
file.read_exact(raw_name.as_mut_slice())?;
let mut node = Node {
name: String::from_utf8(raw_name)?,
..Node::default()
};
let field_count = file.read_u32::<LittleEndian>()? as usize;
for _ in 0..field_count {
let field = Field::load(file)?;
node.fields.push(field);
}
let mut children = Vec::new();
let child_count = file.read_u32::<LittleEndian>()? as usize;
for _ in 0..child_count {
children.push(self.load_node_binary(file)?);
}
node.children = children.clone();
let handle = self.nodes.spawn(node);
for child_handle in children.iter() {
let child = self.nodes.borrow_mut(*child_handle);
child.parent = handle;
}
Ok(handle)
}
pub async fn load_binary<P: AsRef<Path>>(path: P) -> Result<Self, VisitError> {
let mut reader = Cursor::new(io::load_file(path).await?);
let mut magic: [u8; 4] = Default::default();
reader.read_exact(&mut magic)?;
if !magic.eq(Self::MAGIC.as_bytes()) {
return Err(VisitError::NotSupportedFormat);
}
let mut visitor = Self {
nodes: Pool::new(),
rc_map: Default::default(),
arc_map: Default::default(),
reading: true,
current_node: Handle::NONE,
root: Handle::NONE,
};
visitor.root = visitor.load_node_binary(&mut reader)?;
visitor.current_node = visitor.root;
Ok(visitor)
}
}
impl<T> Visit for RefCell<T>
where
T: Visit + 'static,
{
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
if let Ok(mut data) = self.try_borrow_mut() {
data.visit(name, visitor)
} else {
Err(VisitError::RefCellAlreadyMutableBorrowed)
}
}
}
impl<T> Visit for Vec<T>
where
T: Default + Visit + 'static,
{
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
visitor.enter_region(name)?;
let mut len = self.len() as u32;
len.visit("Length", visitor)?;
if visitor.reading {
for index in 0..len {
let region_name = format!("Item{}", index);
visitor.enter_region(region_name.as_str())?;
let mut object = T::default();
object.visit("ItemData", visitor)?;
self.push(object);
visitor.leave_region()?;
}
} else {
for (index, item) in self.iter_mut().enumerate() {
let region_name = format!("Item{}", index);
visitor.enter_region(region_name.as_str())?;
item.visit("ItemData", visitor)?;
visitor.leave_region()?;
}
}
visitor.leave_region()?;
Ok(())
}
}
impl<T> Visit for Option<T>
where
T: Default + Visit + 'static,
{
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
visitor.enter_region(name)?;
let mut is_some = if self.is_some() { 1u8 } else { 0u8 };
is_some.visit("IsSome", visitor)?;
if is_some != 0 {
if visitor.reading {
let mut value = T::default();
value.visit("Data", visitor)?;
*self = Some(value);
} else {
self.as_mut().unwrap().visit("Data", visitor)?;
}
}
visitor.leave_region()?;
Ok(())
}
}
impl Visit for String {
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
visitor.enter_region(name)?;
let mut len = self.as_bytes().len() as u32;
len.visit("Length", visitor)?;
let mut data = if visitor.reading {
Vec::new()
} else {
Vec::from(self.as_bytes())
};
let mut proxy = Data { vec: &mut data };
proxy.visit("Data", visitor)?;
if visitor.reading {
*self = String::from_utf8(data)?;
}
visitor.leave_region()
}
}
impl Visit for PathBuf {
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
visitor.enter_region(name)?;
let portable_path = replace_slashes(&self);
let bytes = if let Some(path_str) = portable_path.as_os_str().to_str() {
path_str.as_bytes()
} else {
return Err(VisitError::InvalidName);
};
let mut len = bytes.len() as u32;
len.visit("Length", visitor)?;
let mut data = if visitor.reading {
Vec::new()
} else {
Vec::from(bytes)
};
let mut proxy = Data { vec: &mut data };
proxy.visit("Data", visitor)?;
if visitor.reading {
*self = PathBuf::from(String::from_utf8(data)?);
}
visitor.leave_region()
}
}
impl<T> Visit for Cell<T>
where
T: Copy + Clone + Visit + 'static,
{
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
let mut value = self.get();
value.visit(name, visitor)?;
if visitor.is_reading() {
self.set(value);
}
Ok(())
}
}
impl<T> Visit for Rc<T>
where
T: Default + Visit + 'static,
{
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
visitor.enter_region(name)?;
if visitor.reading {
let mut raw = 0u64;
raw.visit("Id", visitor)?;
if raw == 0 {
return Err(VisitError::UnexpectedRcNullIndex);
}
if let Some(ptr) = visitor.rc_map.get(&raw) {
if let Ok(res) = Rc::downcast::<T>(ptr.clone()) {
*self = res;
} else {
return Err(VisitError::TypeMismatch);
}
} else {
visitor.rc_map.insert(raw as u64, self.clone());
let raw = rc_to_raw(self.clone());
unsafe { &mut *raw }.visit("RcData", visitor)?;
}
} else {
let raw = rc_to_raw(self.clone());
let mut index = raw as u64;
index.visit("Id", visitor)?;
if let Entry::Vacant(entry) = visitor.rc_map.entry(index) {
entry.insert(self.clone());
unsafe { &mut *raw }.visit("RcData", visitor)?;
}
}
visitor.leave_region()?;
Ok(())
}
}
impl<T> Visit for Mutex<T>
where
T: Default + Visit + Send,
{
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
self.get_mut()?.visit(name, visitor)
}
}
impl<T> Visit for Box<T>
where
T: Visit,
{
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
self.deref_mut().visit(name, visitor)
}
}
impl<T> Visit for RwLock<T>
where
T: Default + Visit + Send,
{
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
self.write()?.visit(name, visitor)
}
}
fn arc_to_raw<T>(arc: Arc<T>) -> *mut T {
&*arc as *const T as *mut T
}
fn rc_to_raw<T>(rc: Rc<T>) -> *mut T {
&*rc as *const T as *mut T
}
impl<T> Visit for Arc<T>
where
T: Default + Visit + Send + Sync + 'static,
{
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
visitor.enter_region(name)?;
if visitor.reading {
let mut raw = 0u64;
raw.visit("Id", visitor)?;
if raw == 0 {
return Err(VisitError::UnexpectedRcNullIndex);
}
if let Some(ptr) = visitor.arc_map.get(&raw) {
if let Ok(res) = Arc::downcast::<T>(ptr.clone()) {
*self = res;
} else {
return Err(VisitError::TypeMismatch);
}
} else {
visitor.arc_map.insert(raw as u64, self.clone());
let raw = arc_to_raw(self.clone());
unsafe { &mut *raw }.visit("ArcData", visitor)?;
}
} else {
let raw = arc_to_raw(self.clone());
let mut index = raw as u64;
index.visit("Id", visitor)?;
if let Entry::Vacant(entry) = visitor.arc_map.entry(index) {
entry.insert(self.clone());
unsafe { &mut *raw }.visit("ArcData", visitor)?;
}
}
visitor.leave_region()?;
Ok(())
}
}
impl<T> Visit for std::rc::Weak<T>
where
T: Default + Visit + 'static,
{
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
visitor.enter_region(name)?;
if visitor.reading {
let mut raw = 0u64;
raw.visit("Id", visitor)?;
if raw != 0 {
if let Some(ptr) = visitor.rc_map.get(&raw) {
if let Ok(res) = Rc::downcast::<T>(ptr.clone()) {
*self = Rc::downgrade(&res);
} else {
return Err(VisitError::TypeMismatch);
}
} else {
let rc = Rc::new(T::default());
visitor.rc_map.insert(raw as u64, rc.clone());
let raw = rc_to_raw(rc.clone());
unsafe { &mut *raw }.visit("RcData", visitor)?;
*self = Rc::downgrade(&rc);
}
}
} else if let Some(rc) = std::rc::Weak::upgrade(self) {
let raw = rc_to_raw(rc.clone());
let mut index = raw as u64;
index.visit("Id", visitor)?;
if let Entry::Vacant(entry) = visitor.rc_map.entry(index) {
entry.insert(rc);
unsafe { &mut *raw }.visit("RcData", visitor)?;
}
} else {
let mut index = 0u64;
index.visit("Id", visitor)?;
}
visitor.leave_region()?;
Ok(())
}
}
impl<T> Visit for std::sync::Weak<T>
where
T: Default + Visit + Send + Sync + 'static,
{
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
visitor.enter_region(name)?;
if visitor.reading {
let mut raw = 0u64;
raw.visit("Id", visitor)?;
if raw != 0 {
if let Some(ptr) = visitor.arc_map.get(&raw) {
if let Ok(res) = Arc::downcast::<T>(ptr.clone()) {
*self = Arc::downgrade(&res);
} else {
return Err(VisitError::TypeMismatch);
}
} else {
let arc = Arc::new(T::default());
visitor.arc_map.insert(raw as u64, arc.clone());
let raw = arc_to_raw(arc.clone());
unsafe { &mut *raw }.visit("ArcData", visitor)?;
*self = Arc::downgrade(&arc);
}
}
} else if let Some(arc) = std::sync::Weak::upgrade(self) {
let raw = arc_to_raw(arc.clone());
let mut index = raw as u64;
index.visit("Id", visitor)?;
if let Entry::Vacant(entry) = visitor.arc_map.entry(index) {
entry.insert(arc);
unsafe { &mut *raw }.visit("ArcData", visitor)?;
}
} else {
let mut index = 0u64;
index.visit("Id", visitor)?;
}
visitor.leave_region()?;
Ok(())
}
}
impl<K, V, S: std::hash::BuildHasher> Visit for HashMap<K, V, S>
where
K: Visit + Default + Clone + Hash + Eq,
V: Visit + Default,
{
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
visitor.enter_region(name)?;
let mut count = self.len() as u32;
count.visit("Count", visitor)?;
if visitor.is_reading() {
for i in 0..(count as usize) {
let name = format!("Item{}", i);
visitor.enter_region(name.as_str())?;
let mut key = K::default();
key.visit("Key", visitor)?;
let mut value = V::default();
value.visit("Value", visitor)?;
self.insert(key, value);
visitor.leave_region()?;
}
} else {
for (i, (key, value)) in self.iter_mut().enumerate() {
let name = format!("Item{}", i);
visitor.enter_region(name.as_str())?;
let mut key = key.clone();
key.visit("Key", visitor)?;
value.visit("Value", visitor)?;
visitor.leave_region()?;
}
}
visitor.leave_region()
}
}
impl<T: Default + Visit, const SIZE: usize> Visit for [T; SIZE] {
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
visitor.enter_region(name)?;
let mut len = SIZE as u32;
len.visit("Length", visitor)?;
if visitor.reading {
if len > SIZE as u32 {
return VisitResult::Err(VisitError::User(format!(
"Not enough space in static array, got {}, needed {}!",
len, SIZE
)));
}
for index in 0..len {
let region_name = format!("Item{}", index);
visitor.enter_region(region_name.as_str())?;
let mut object = T::default();
object.visit("ItemData", visitor)?;
self[index as usize] = object;
visitor.leave_region()?;
}
} else {
for (index, item) in self.iter_mut().enumerate() {
let region_name = format!("Item{}", index);
visitor.enter_region(region_name.as_str())?;
item.visit("ItemData", visitor)?;
visitor.leave_region()?;
}
}
visitor.leave_region()
}
}
#[cfg(test)]
mod test {
use crate::visitor::{Data, Visit, VisitError, VisitResult, Visitor};
use std::{fs::File, io::Write, path::Path, rc::Rc};
pub struct Model {
data: u64,
}
pub struct Texture {
data: Vec<u8>,
}
impl Visit for Texture {
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
visitor.enter_region(name)?;
let mut proxy = Data {
vec: &mut self.data,
};
proxy.visit("Data", visitor)?;
visitor.leave_region()
}
}
impl Visit for Model {
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
visitor.enter_region(name)?;
self.data.visit("Data", visitor)?;
visitor.leave_region()
}
}
impl Visit for ResourceKind {
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
match self {
ResourceKind::Unknown => Err(VisitError::User(format!("invalid resource type"))),
ResourceKind::Texture(tex) => tex.visit(name, visitor),
ResourceKind::Model(model) => model.visit(name, visitor),
}
}
}
#[allow(dead_code)]
pub enum ResourceKind {
Unknown,
Model(Model),
Texture(Texture),
}
struct Resource {
kind: ResourceKind,
data: u16,
}
impl Resource {
fn new(kind: ResourceKind) -> Self {
Self { kind, data: 0 }
}
}
impl Default for Resource {
fn default() -> Self {
Self {
kind: ResourceKind::Unknown,
data: 0,
}
}
}
impl Visit for Resource {
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
visitor.enter_region(name)?;
if visitor.reading {
} else {
let mut kind_id: u8 = match &self.kind {
ResourceKind::Unknown => {
return Err(VisitError::User(format!("Invalid resource!")))
}
ResourceKind::Model(_) => 0,
ResourceKind::Texture(_) => 1,
};
kind_id.visit("KindId", visitor)?;
self.kind.visit("KindData", visitor)?;
}
self.data.visit("ResData", visitor)?;
visitor.leave_region()
}
}
struct Foo {
bar: u64,
shared_resource: Option<Rc<Resource>>,
}
impl Default for Foo {
fn default() -> Self {
Self {
bar: 0,
shared_resource: None,
}
}
}
impl Foo {
fn new(resource: Rc<Resource>) -> Self {
Self {
bar: 123,
shared_resource: Some(resource),
}
}
}
impl Visit for Foo {
fn visit(&mut self, name: &str, visitor: &mut Visitor) -> VisitResult {
visitor.enter_region(name)?;
self.bar.visit("Bar", visitor)?;
self.shared_resource.visit("SharedResource", visitor)?;
visitor.leave_region()
}
}
#[test]
fn visitor_test() {
let path = Path::new("test.bin");
{
let mut visitor = Visitor::new();
let mut resource = Rc::new(Resource::new(ResourceKind::Model(Model { data: 555 })));
resource.visit("SharedResource", &mut visitor).unwrap();
let mut objects = vec![Foo::new(resource.clone()), Foo::new(resource)];
objects.visit("Objects", &mut visitor).unwrap();
visitor.save_binary(path).unwrap();
if let Ok(mut file) = File::create(Path::new("test.txt")) {
file.write(visitor.save_text().as_bytes()).unwrap();
}
}
{
let mut visitor = futures::executor::block_on(Visitor::load_binary(path)).unwrap();
let mut resource: Rc<Resource> = Rc::new(Default::default());
resource.visit("SharedResource", &mut visitor).unwrap();
let mut objects: Vec<Foo> = Vec::new();
objects.visit("Objects", &mut visitor).unwrap();
}
}
}