repr tree: split leaf & node into separate files

This commit is contained in:
Michael Sippel 2024-08-04 19:27:36 +02:00
parent 4c0e9da2d3
commit 508e716a6a
Signed by: senvas
GPG key ID: F96CF119C34B64A6
3 changed files with 568 additions and 514 deletions

View file

@ -0,0 +1,216 @@
use {
r3vi::{
view::{
ViewPort, OuterViewPort,
AnyViewPort, AnyInnerViewPort, AnyOuterViewPort,
port::UpdateTask,
View, Observer,
singleton::*,
sequence::*,
list::*
},
buffer::{singleton::*, vec::*}
},
laddertypes::{TypeTerm},
std::{
collections::HashMap,
sync::{Arc, RwLock},
any::Any
},
};
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
#[derive(Clone)]
pub struct ReprLeaf {
out_port: AnyViewPort,
in_port: AnyInnerViewPort,
data: Option< Arc<dyn Any + Send + Sync> >,
/// keepalive for the observer that updates the buffer from in_port
keepalive: Option<Arc<dyn Any + Send + Sync>>,
in_keepalive: Option<Arc<dyn Any + Send + Sync>>,
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
impl ReprLeaf {
pub fn from_view<V>( src_port: OuterViewPort<V> ) -> Self
where V: View + ?Sized + 'static,
V::Msg: Clone
{
let mut in_port = ViewPort::<V>::new();
let in_keepalive = in_port.attach_to(src_port);
let mut out_port = ViewPort::<V>::new();
let out_keepalive = out_port.attach_to(in_port.outer());
ReprLeaf {
keepalive: Some(out_keepalive),
in_keepalive: Some(in_keepalive),
in_port: in_port.inner().into(),
out_port: out_port.into(),
data: None,
}
}
pub fn detach<V>(&mut self)
where V: View + ?Sized + 'static,
V::Msg: Clone
{
self.keepalive = None;
self.in_keepalive = None;
let ip = self.in_port.clone()
.downcast::<V>().ok()
.unwrap();
ip.0.detach();
if self.data.is_none() {
let mut op = self.out_port.clone()
.downcast::<V>().ok()
.unwrap();
op.detach();
self.keepalive = Some(op.attach_to(ip.0.outer()));
}
}
pub fn detach_vec<Item>(&mut self)
where Item: Clone + Send + Sync + 'static
{
self.keepalive = None;
self.in_keepalive = None;
let ip = self.in_port.clone()
.downcast::<dyn ListView<Item>>().ok()
.unwrap();
ip.0.detach();
if let Some(data) = self.data.as_mut() {
let mut op = self.out_port.clone()
.downcast::<RwLock<Vec<Item>>>().ok()
.unwrap();
op.detach();
let data = data.clone().downcast::< RwLock<Vec<Item>> >().ok().unwrap();
let buffer = VecBuffer::with_data_arc_port(data, op.inner());
self.keepalive = Some(buffer.attach_to(ip.0.outer()))
}
}
pub fn attach_to<V>(&mut self, src_port: OuterViewPort<V>)
where V: View + ?Sized + 'static,
V::Msg: Clone
{
self.in_keepalive = Some(self.in_port.clone()
.downcast::<V>().ok().unwrap()
.0.attach_to( src_port ));
}
pub fn from_singleton_buffer<T>( buffer: SingletonBuffer<T> ) -> Self
where T: Clone + Send + Sync + 'static
{
let in_port = ViewPort::<dyn SingletonView<Item = T>>::new();
ReprLeaf {
in_keepalive: None,
keepalive: Some(buffer.attach_to(in_port.outer())),
in_port: in_port.inner().into(),
out_port: buffer.get_port().0.into(),
data: Some(buffer.into_inner())
}
}
pub fn from_vec_buffer<T>( buffer: VecBuffer<T> ) -> Self
where T: Clone + Send + Sync + 'static
{
let in_port = ViewPort::< dyn ListView<T> >::new();
ReprLeaf {
in_keepalive: None,
keepalive: Some(buffer.attach_to(in_port.outer())),
in_port: in_port.inner().into(),
out_port: buffer.get_port().0.into(),
data: Some(buffer.into_inner())
}
}
pub fn as_singleton_buffer<T>(&mut self) -> Option<SingletonBuffer<T>>
where T: Clone + Send + Sync + 'static
{
let sgl_port = self.get_port::< dyn SingletonView<Item = T> >().unwrap().0;
let data_arc =
if let Some(data) = self.data.as_ref() {
data.clone().downcast::<RwLock<T>>().ok()
} else {
sgl_port.update();
let value = sgl_port.outer().get_view().unwrap().get();
eprintln!("make new data ARC from old value");
Some(Arc::new(RwLock::new( value )))
};
if let Some(data_arc) = data_arc {
self.data = Some(data_arc.clone() as Arc<dyn Any + Send + Sync>);
let buf = SingletonBuffer {
value: data_arc,
port: sgl_port.inner()
};
self.keepalive = Some(buf.attach_to(
self.in_port.0.clone()
.downcast::<dyn SingletonView<Item = T>>()
.ok().unwrap()
.outer()
));
Some(buf)
} else {
None
}
}
pub fn as_vec_buffer<T>(&mut self) -> Option<VecBuffer<T>>
where T: Clone + Send + Sync + 'static
{
let vec_port = self.get_port::< RwLock<Vec<T>> >().unwrap().0;
let data_arc =
if let Some(data) = self.data.as_ref() {
data.clone().downcast::<RwLock<Vec<T>>>().ok()
} else {
vec_port.update();
if let Some(value) = vec_port.outer().get_view() {
let value = value.read().unwrap().clone();
eprintln!("make new data ARC from old VECTOR-value");
Some(Arc::new(RwLock::new( value )))
} else {
eprintln!("no data vec");
Some(Arc::new(RwLock::new( Vec::new() )))
// None
}
};
if let Some(data_arc) = data_arc {
self.data = Some(data_arc.clone() as Arc<dyn Any + Send + Sync>);
let buf = VecBuffer::with_data_arc_port(data_arc, vec_port.inner());
self.keepalive = Some(buf.attach_to(
self.in_port.0.clone()
.downcast::< dyn ListView<T> >()
.ok().unwrap()
.outer()
));
Some(buf)
} else {
None
}
}
pub fn get_port<V>(&self) -> Option<OuterViewPort<V>>
where V: View + ?Sized + 'static,
V::Msg: Clone
{
self.out_port.clone().downcast::<V>().ok().map(|p| p.outer())
}
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>

View file

@ -1,3 +1,5 @@
pub mod node;
pub mod leaf;
pub mod context; pub mod context;
pub mod morphism; pub mod morphism;
@ -6,6 +8,8 @@ mod tests;
pub use { pub use {
context::{Context}, context::{Context},
leaf::ReprLeaf,
node::ReprTree,
morphism::{MorphismType, GenericReprTreeMorphism, MorphismBase} morphism::{MorphismType, GenericReprTreeMorphism, MorphismBase}
}; };
@ -30,520 +34,6 @@ use {
}, },
}; };
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
#[derive(Clone)]
pub struct ReprLeaf {
out_port: AnyViewPort,
in_port: AnyInnerViewPort,
data: Option< Arc<dyn Any + Send + Sync> >,
/// keepalive for the observer that updates the buffer from in_port
keepalive: Option<Arc<dyn Any + Send + Sync>>,
in_keepalive: Option<Arc<dyn Any + Send + Sync>>,
}
#[derive(Clone)]
pub struct ReprTree {
halo: TypeTerm,
type_tag: TypeTerm,
branches: HashMap<TypeTerm, Arc<RwLock<ReprTree>>>,
leaf: Option< ReprLeaf >
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
impl std::fmt::Debug for ReprTree {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
writeln!(f, "| type: {:?}", self.type_tag)?;
for (_k,x) in self.branches.iter() {
writeln!(f, "|--> child: {:?}", x)?;
}
Ok(())
}
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
impl ReprLeaf {
pub fn from_view<V>( src_port: OuterViewPort<V> ) -> Self
where V: View + ?Sized + 'static,
V::Msg: Clone
{
let mut in_port = ViewPort::<V>::new();
let in_keepalive = in_port.attach_to(src_port);
let mut out_port = ViewPort::<V>::new();
let out_keepalive = out_port.attach_to(in_port.outer());
ReprLeaf {
keepalive: Some(out_keepalive),
in_keepalive: Some(in_keepalive),
in_port: in_port.inner().into(),
out_port: out_port.into(),
data: None,
}
}
pub fn detach<V>(&mut self)
where V: View + ?Sized + 'static,
V::Msg: Clone
{
self.keepalive = None;
self.in_keepalive = None;
let ip = self.in_port.clone()
.downcast::<V>().ok()
.unwrap();
ip.0.detach();
if self.data.is_none() {
let mut op = self.out_port.clone()
.downcast::<V>().ok()
.unwrap();
op.detach();
self.keepalive = Some(op.attach_to(ip.0.outer()));
}
}
pub fn detach_vec<Item>(&mut self)
where Item: Clone + Send + Sync + 'static
{
self.keepalive = None;
self.in_keepalive = None;
let ip = self.in_port.clone()
.downcast::<dyn ListView<Item>>().ok()
.unwrap();
ip.0.detach();
if let Some(data) = self.data.as_mut() {
let mut op = self.out_port.clone()
.downcast::<RwLock<Vec<Item>>>().ok()
.unwrap();
op.detach();
let data = data.clone().downcast::< RwLock<Vec<Item>> >().ok().unwrap();
let buffer = VecBuffer::with_data_arc_port(data, op.inner());
self.keepalive = Some(buffer.attach_to(ip.0.outer()))
}
}
pub fn attach_to<V>(&mut self, src_port: OuterViewPort<V>)
where V: View + ?Sized + 'static,
V::Msg: Clone
{
self.in_keepalive = Some(self.in_port.clone()
.downcast::<V>().ok().unwrap()
.0.attach_to( src_port ));
}
pub fn from_singleton_buffer<T>( buffer: SingletonBuffer<T> ) -> Self
where T: Clone + Send + Sync + 'static
{
let in_port = ViewPort::<dyn SingletonView<Item = T>>::new();
ReprLeaf {
in_keepalive: None,
keepalive: Some(buffer.attach_to(in_port.outer())),
in_port: in_port.inner().into(),
out_port: buffer.get_port().0.into(),
data: Some(buffer.into_inner())
}
}
pub fn from_vec_buffer<T>( buffer: VecBuffer<T> ) -> Self
where T: Clone + Send + Sync + 'static
{
let in_port = ViewPort::< dyn ListView<T> >::new();
ReprLeaf {
in_keepalive: None,
keepalive: Some(buffer.attach_to(in_port.outer())),
in_port: in_port.inner().into(),
out_port: buffer.get_port().0.into(),
data: Some(buffer.into_inner())
}
}
pub fn as_singleton_buffer<T>(&mut self) -> Option<SingletonBuffer<T>>
where T: Clone + Send + Sync + 'static
{
let sgl_port = self.get_port::< dyn SingletonView<Item = T> >().unwrap().0;
let data_arc =
if let Some(data) = self.data.as_ref() {
data.clone().downcast::<RwLock<T>>().ok()
} else {
sgl_port.update();
let value = sgl_port.outer().get_view().unwrap().get();
eprintln!("make new data ARC from old value");
Some(Arc::new(RwLock::new( value )))
};
if let Some(data_arc) = data_arc {
self.data = Some(data_arc.clone() as Arc<dyn Any + Send + Sync>);
let buf = SingletonBuffer {
value: data_arc,
port: sgl_port.inner()
};
self.keepalive = Some(buf.attach_to(
self.in_port.0.clone()
.downcast::<dyn SingletonView<Item = T>>()
.ok().unwrap()
.outer()
));
Some(buf)
} else {
None
}
}
pub fn as_vec_buffer<T>(&mut self) -> Option<VecBuffer<T>>
where T: Clone + Send + Sync + 'static
{
let vec_port = self.get_port::< RwLock<Vec<T>> >().unwrap().0;
let data_arc =
if let Some(data) = self.data.as_ref() {
data.clone().downcast::<RwLock<Vec<T>>>().ok()
} else {
vec_port.update();
if let Some(value) = vec_port.outer().get_view() {
let value = value.read().unwrap().clone();
eprintln!("make new data ARC from old VECTOR-value");
Some(Arc::new(RwLock::new( value )))
} else {
eprintln!("no data vec");
Some(Arc::new(RwLock::new( Vec::new() )))
// None
}
};
if let Some(data_arc) = data_arc {
self.data = Some(data_arc.clone() as Arc<dyn Any + Send + Sync>);
let buf = VecBuffer::with_data_arc_port(data_arc, vec_port.inner());
self.keepalive = Some(buf.attach_to(
self.in_port.0.clone()
.downcast::< dyn ListView<T> >()
.ok().unwrap()
.outer()
));
Some(buf)
} else {
None
}
}
pub fn get_port<V>(&self) -> Option<OuterViewPort<V>>
where V: View + ?Sized + 'static,
V::Msg: Clone
{
self.out_port.clone().downcast::<V>().ok().map(|p| p.outer())
}
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
impl ReprTree {
pub fn new(type_tag: impl Into<TypeTerm>) -> Self {
let type_tag = type_tag.into();
assert!(type_tag.is_flat());
ReprTree {
halo: TypeTerm::unit(),
type_tag: type_tag.clone(),
branches: HashMap::new(),
leaf: None
}
}
pub fn new_arc(type_tag: impl Into<TypeTerm>) -> Arc<RwLock<Self>> {
Arc::new(RwLock::new(Self::new(type_tag)))
}
pub fn get_type(&self) -> &TypeTerm {
&self.type_tag
}
pub fn set_halo(&mut self, halo_type: impl Into<TypeTerm>) {
self.halo = halo_type.into();
for (branch_type, branch) in self.branches.iter() {
branch.write().unwrap().set_halo( TypeTerm::Ladder(vec![
self.halo.clone(),
self.type_tag.clone()
]).normalize()
);
}
}
pub fn get_halo_type(&self) -> &TypeTerm {
&self.halo
}
pub fn get_leaf_types(&self) -> Vec< TypeTerm > {
let mut leaf_types = Vec::new();
if self.leaf.is_some() {
leaf_types.push( self.get_type().clone() );
}
for (branch_type, branch) in self.branches.iter() {
for t in branch.read().unwrap().get_leaf_types() {
leaf_types.push(TypeTerm::Ladder(vec![
self.get_type().clone(),
t
]).normalize())
}
}
leaf_types
}
pub fn insert_branch(&mut self, repr: Arc<RwLock<ReprTree>>) {
let branch_type = repr.read().unwrap().get_type().clone();
assert!(branch_type.is_flat());
repr.write().unwrap().set_halo( TypeTerm::Ladder(vec![
self.halo.clone(),
self.type_tag.clone()
]).normalize() );
self.branches.insert(branch_type, repr.clone());
}
pub fn from_char(ctx: &Arc<RwLock<Context>>, c: char ) -> Arc<RwLock<Self>> {
ReprTree::from_singleton_buffer(
Context::parse(ctx, "Char"),
SingletonBuffer::new(c)
)
}
pub fn from_view<V>( type_tag: impl Into<TypeTerm>, view: OuterViewPort<V> ) -> Arc<RwLock<Self>>
where V: View + ?Sized + 'static,
V::Msg: Clone
{
let mut rt = ReprTree::new(type_tag);
rt.leaf = Some(ReprLeaf::from_view(view));
Arc::new(RwLock::new(rt))
}
pub fn from_singleton_buffer<T>( type_tag: impl Into<TypeTerm>, buf: SingletonBuffer<T> ) -> Arc<RwLock<Self>>
where T: Clone + Send + Sync + 'static
{
let mut rt = ReprTree::new(type_tag);
rt.leaf = Some(ReprLeaf::from_singleton_buffer(buf));
Arc::new(RwLock::new(rt))
}
pub fn from_vec_buffer<T>( type_tag: impl Into<TypeTerm>, buf: VecBuffer<T> ) -> Arc<RwLock<Self>>
where T: Clone + Send + Sync + 'static
{
let mut rt = ReprTree::new(type_tag);
rt.leaf = Some(ReprLeaf::from_vec_buffer(buf));
Arc::new(RwLock::new(rt))
}
pub fn attach_to<V>(
&mut self,
src_port: OuterViewPort<V>
)
where V: View + ?Sized + 'static,
V::Msg: Clone
{
if let Some(leaf) = self.leaf.as_mut() {
leaf.attach_to(src_port);
} else {
eprintln!("cant attach branch without leaf");
}
}
/// find, and if necessary, create corresponding path in repr-tree.
/// Attach src_port to input of that node
pub fn attach_leaf_to<V>(
&mut self,
mut type_ladder: impl Iterator<Item = TypeTerm>,
src_port: OuterViewPort<V>
)
where V: View + ?Sized + 'static,
V::Msg: Clone
{
while let Some(rung_type) = type_ladder.next() {
if &rung_type != self.get_type() {
if let Some(next_repr) = self.branches.get(&rung_type) {
next_repr.write().unwrap().attach_leaf_to(type_ladder, src_port);
} else {
let mut next_repr = ReprTree::new(rung_type.clone());
next_repr.attach_leaf_to(type_ladder, src_port);
self.insert_branch(Arc::new(RwLock::new(next_repr)));
}
return;
}
}
if let Some(leaf) = self.leaf.as_mut() {
leaf.attach_to(src_port);
} else {
self.leaf = Some(ReprLeaf::from_view(src_port));
}
}
pub fn detach(&mut self, ctx: &Arc<RwLock<Context>>) {
if let Some(leaf) = self.leaf.as_mut() {
if self.type_tag == Context::parse(&ctx, "Char") {
leaf.detach::<dyn SingletonView<Item = char>>();
}
if self.type_tag == Context::parse(&ctx, "<Vec Char>") {
leaf.detach_vec::<char>();
}
if self.type_tag == Context::parse(&ctx, "<List Char>") {
leaf.detach::<dyn ListView<char>>();
}
}
for (t,b) in self.branches.iter_mut() {
b.write().unwrap().detach(&ctx);
}
}
pub fn insert_leaf(
&mut self,
mut type_ladder: impl Iterator<Item = TypeTerm>,
leaf: ReprLeaf
) {
while let Some(type_term) = type_ladder.next() {
if &type_term != self.get_type() {
if let Some(next_repr) = self.branches.get(&type_term) {
next_repr.write().unwrap().insert_leaf(type_ladder, leaf.clone());
} else {
let mut next_repr = ReprTree::new(type_term.clone());
next_repr.insert_leaf(type_ladder, leaf.clone());
self.insert_branch(Arc::new(RwLock::new(next_repr)));
}
return;
}
}
self.leaf = Some(leaf);
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
pub fn descend_one(&self, dst_type: impl Into<TypeTerm>) -> Option<Arc<RwLock<ReprTree>>> {
let dst_type = dst_type.into();
assert!( dst_type.is_flat() );
self.branches.get(&dst_type).cloned()
}
pub fn descend_ladder(rt: &Arc<RwLock<Self>>, mut repr_ladder: impl Iterator<Item = TypeTerm>) -> Option<Arc<RwLock<ReprTree>>> {
if let Some(first) = repr_ladder.next() {
let rt = rt.read().unwrap();
repr_ladder.fold(
rt.descend_one(first),
|s, t| s?.descend(t))
} else {
Some(rt.clone())
}
}
pub fn descend(rt: &Arc<RwLock<Self>>, dst_type: impl Into<TypeTerm>) -> Option<Arc<RwLock<ReprTree>>> {
let mut lnf = dst_type.into().get_lnf_vec();
if lnf.len() > 0 {
if lnf[0] == rt.get_type() {
lnf.remove(0);
}
ReprTree::descend_ladder(rt, lnf.into_iter())
} else {
Some(rt.clone())
}
}
pub fn ascend(rt: &Arc<RwLock<Self>>, type_term: impl Into<TypeTerm>) -> Arc<RwLock<ReprTree>> {
let mut n = Self::new(type_term);
n.insert_branch(rt.clone());
Arc::new(RwLock::new(n))
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
pub fn singleton_buffer<T: Clone + Send + Sync + 'static>(&mut self) -> Option<SingletonBuffer<T>> {
if let Some(leaf) = self.leaf.as_mut() {
leaf.as_singleton_buffer::<T>()
} else {
// create new singleton buffer
/*
// default value??
let buf = SingletonBuffer::<T>::default();
self.leaf = Some(ReprLeaf::from_singleton_buffer(buf.clone()));
Some(buf)
*/
None
}
}
pub fn vec_buffer<T: Clone + Send + Sync + 'static>(&mut self) -> Option<VecBuffer<T>> {
if let Some(leaf) = self.leaf.as_mut() {
leaf.as_vec_buffer::<T>()
} else {
None
}
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
pub fn get_port<V: View + ?Sized + 'static>(&self) -> Option<OuterViewPort<V>>
where
V::Msg: Clone,
{
if let Some(leaf) = self.leaf.as_ref() {
leaf.get_port::<V>()
} else {
None
}
}
pub fn get_view<V: View + ?Sized + 'static>(&self) -> Option<Arc<V>>
where
V::Msg: Clone,
{
self.get_port::<V>()?
.get_view()
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
pub fn view_singleton<T: 'static>(&self) -> OuterViewPort<dyn SingletonView<Item = T>> {
self.get_port::<dyn SingletonView<Item = T>>().expect("no singleton-view available")
}
pub fn view_seq<T: 'static>(&self) -> OuterViewPort<dyn SequenceView<Item = T>> {
self.get_port::<dyn SequenceView<Item = T>>().expect("no sequence-view available")
}
pub fn view_list<T: Clone + Send + Sync + 'static>(&self) -> OuterViewPort<dyn ListView<T>> {
self.get_port::<dyn ListView<T>>().expect("no list-view available")
}
pub fn view_char(&self) -> OuterViewPort<dyn SingletonView<Item = char>> {
self.get_port::<dyn SingletonView<Item = char>>().expect("no char-view available")
}
pub fn view_u8(&self) -> OuterViewPort<dyn SingletonView<Item = u8>> {
self.get_port::<dyn SingletonView<Item = u8>>().expect("no u8-view available")
}
pub fn view_u64(&self) -> OuterViewPort<dyn SingletonView<Item = u64>> {
self.get_port::<dyn SingletonView<Item = u64>>().expect("no u64-view available")
}
pub fn view_usize(&self) -> OuterViewPort<dyn SingletonView<Item = usize>> {
self.get_port::<dyn SingletonView<Item = usize>>().expect("no usize-view available")
}
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>> //<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
pub trait ReprTreeExt { pub trait ReprTreeExt {

View file

@ -0,0 +1,348 @@
use {
r3vi::{
view::{
ViewPort, OuterViewPort,
AnyViewPort, AnyInnerViewPort, AnyOuterViewPort,
port::UpdateTask,
View, Observer,
singleton::*,
sequence::*,
list::*
},
buffer::{singleton::*, vec::*}
},
laddertypes::{TypeTerm},
std::{
collections::HashMap,
sync::{Arc, RwLock},
any::Any
},
super::{Context, ReprLeaf, ReprTreeExt}
};
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
#[derive(Clone)]
pub struct ReprTree {
halo: TypeTerm,
type_tag: TypeTerm,
branches: HashMap<TypeTerm, Arc<RwLock<ReprTree>>>,
leaf: Option< ReprLeaf >
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
impl std::fmt::Debug for ReprTree {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
writeln!(f, "| type: {:?}", self.type_tag)?;
for (_k,x) in self.branches.iter() {
writeln!(f, "|--> child: {:?}", x)?;
}
writeln!(f, "");
Ok(())
}
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
impl ReprTree {
pub fn new(type_tag: impl Into<TypeTerm>) -> Self {
let type_tag = type_tag.into();
assert!(type_tag.is_flat());
ReprTree {
halo: TypeTerm::unit(),
type_tag: type_tag.clone(),
branches: HashMap::new(),
leaf: None
}
}
pub fn new_arc(type_tag: impl Into<TypeTerm>) -> Arc<RwLock<Self>> {
Arc::new(RwLock::new(Self::new(type_tag)))
}
pub fn get_type(&self) -> &TypeTerm {
&self.type_tag
}
pub fn set_halo(&mut self, halo_type: impl Into<TypeTerm>) {
self.halo = halo_type.into();
for (branch_type, branch) in self.branches.iter() {
branch.write().unwrap().set_halo( TypeTerm::Ladder(vec![
self.halo.clone(),
self.type_tag.clone()
]).normalize()
);
}
}
pub fn get_halo_type(&self) -> &TypeTerm {
&self.halo
}
pub fn get_leaf_types(&self) -> Vec< TypeTerm > {
let mut leaf_types = Vec::new();
if self.leaf.is_some() {
leaf_types.push( self.get_type().clone() );
}
for (branch_type, branch) in self.branches.iter() {
for t in branch.read().unwrap().get_leaf_types() {
leaf_types.push(TypeTerm::Ladder(vec![
self.get_type().clone(),
t
]).normalize())
}
}
leaf_types
}
pub fn insert_branch(&mut self, repr: Arc<RwLock<ReprTree>>) {
let branch_type = repr.read().unwrap().get_type().clone();
assert!(branch_type.is_flat());
repr.write().unwrap().set_halo( TypeTerm::Ladder(vec![
self.halo.clone(),
self.type_tag.clone()
]).normalize() );
self.branches.insert(branch_type, repr.clone());
}
pub fn from_char(ctx: &Arc<RwLock<Context>>, c: char ) -> Arc<RwLock<Self>> {
ReprTree::from_singleton_buffer(
Context::parse(ctx, "Char"),
SingletonBuffer::new(c)
)
}
pub fn from_view<V>( type_tag: impl Into<TypeTerm>, view: OuterViewPort<V> ) -> Arc<RwLock<Self>>
where V: View + ?Sized + 'static,
V::Msg: Clone
{
let mut rt = ReprTree::new(type_tag);
rt.leaf = Some(ReprLeaf::from_view(view));
Arc::new(RwLock::new(rt))
}
pub fn from_singleton_buffer<T>( type_tag: impl Into<TypeTerm>, buf: SingletonBuffer<T> ) -> Arc<RwLock<Self>>
where T: Clone + Send + Sync + 'static
{
let mut rt = ReprTree::new(type_tag);
rt.leaf = Some(ReprLeaf::from_singleton_buffer(buf));
Arc::new(RwLock::new(rt))
}
pub fn from_vec_buffer<T>( type_tag: impl Into<TypeTerm>, buf: VecBuffer<T> ) -> Arc<RwLock<Self>>
where T: Clone + Send + Sync + 'static
{
let mut rt = ReprTree::new(type_tag);
rt.leaf = Some(ReprLeaf::from_vec_buffer(buf));
Arc::new(RwLock::new(rt))
}
pub fn attach_to<V>(
&mut self,
src_port: OuterViewPort<V>
)
where V: View + ?Sized + 'static,
V::Msg: Clone
{
if let Some(leaf) = self.leaf.as_mut() {
leaf.attach_to(src_port);
} else {
eprintln!("cant attach branch without leaf");
}
}
/// find, and if necessary, create corresponding path in repr-tree.
/// Attach src_port to input of that node
pub fn attach_leaf_to<V>(
&mut self,
mut type_ladder: impl Iterator<Item = TypeTerm>,
src_port: OuterViewPort<V>
)
where V: View + ?Sized + 'static,
V::Msg: Clone
{
while let Some(rung_type) = type_ladder.next() {
if &rung_type != self.get_type() {
if let Some(next_repr) = self.branches.get(&rung_type) {
next_repr.write().unwrap().attach_leaf_to(type_ladder, src_port);
} else {
let mut next_repr = ReprTree::new(rung_type.clone());
next_repr.attach_leaf_to(type_ladder, src_port);
self.insert_branch(Arc::new(RwLock::new(next_repr)));
}
return;
}
}
if let Some(leaf) = self.leaf.as_mut() {
leaf.attach_to(src_port);
} else {
self.leaf = Some(ReprLeaf::from_view(src_port));
}
}
pub fn detach(&mut self, ctx: &Arc<RwLock<Context>>) {
if let Some(leaf) = self.leaf.as_mut() {
if self.type_tag == Context::parse(&ctx, "Char") {
leaf.detach::<dyn SingletonView<Item = char>>();
}
if self.type_tag == Context::parse(&ctx, "<Vec Char>") {
leaf.detach_vec::<char>();
}
if self.type_tag == Context::parse(&ctx, "<List Char>") {
leaf.detach::<dyn ListView<char>>();
}
}
for (t,b) in self.branches.iter_mut() {
b.write().unwrap().detach(&ctx);
}
}
pub fn insert_leaf(
&mut self,
mut type_ladder: impl Iterator<Item = TypeTerm>,
leaf: ReprLeaf
) {
while let Some(type_term) = type_ladder.next() {
if &type_term != self.get_type() {
if let Some(next_repr) = self.branches.get(&type_term) {
next_repr.write().unwrap().insert_leaf(type_ladder, leaf.clone());
} else {
let mut next_repr = ReprTree::new(type_term.clone());
next_repr.insert_leaf(type_ladder, leaf.clone());
self.insert_branch(Arc::new(RwLock::new(next_repr)));
}
return;
}
}
self.leaf = Some(leaf);
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
pub fn descend_one(&self, dst_type: impl Into<TypeTerm>) -> Option<Arc<RwLock<ReprTree>>> {
let dst_type = dst_type.into();
assert!( dst_type.is_flat() );
self.branches.get(&dst_type).cloned()
}
pub fn descend_ladder(rt: &Arc<RwLock<Self>>, mut repr_ladder: impl Iterator<Item = TypeTerm>) -> Option<Arc<RwLock<ReprTree>>> {
if let Some(first) = repr_ladder.next() {
let rt = rt.read().unwrap();
repr_ladder.fold(
rt.descend_one(first),
|s, t| s?.descend(t))
} else {
Some(rt.clone())
}
}
pub fn descend(rt: &Arc<RwLock<Self>>, dst_type: impl Into<TypeTerm>) -> Option<Arc<RwLock<ReprTree>>> {
let mut lnf = dst_type.into().get_lnf_vec();
if lnf.len() > 0 {
if lnf[0] == rt.get_type() {
lnf.remove(0);
}
ReprTree::descend_ladder(rt, lnf.into_iter())
} else {
Some(rt.clone())
}
}
pub fn ascend(rt: &Arc<RwLock<Self>>, type_term: impl Into<TypeTerm>) -> Arc<RwLock<ReprTree>> {
let mut n = Self::new(type_term);
n.insert_branch(rt.clone());
Arc::new(RwLock::new(n))
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
pub fn singleton_buffer<T: Clone + Send + Sync + 'static>(&mut self) -> Option<SingletonBuffer<T>> {
if let Some(leaf) = self.leaf.as_mut() {
leaf.as_singleton_buffer::<T>()
} else {
// create new singleton buffer
/*
// default value??
let buf = SingletonBuffer::<T>::default();
self.leaf = Some(ReprLeaf::from_singleton_buffer(buf.clone()));
Some(buf)
*/
None
}
}
pub fn vec_buffer<T: Clone + Send + Sync + 'static>(&mut self) -> Option<VecBuffer<T>> {
if let Some(leaf) = self.leaf.as_mut() {
leaf.as_vec_buffer::<T>()
} else {
None
}
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
pub fn get_port<V: View + ?Sized + 'static>(&self) -> Option<OuterViewPort<V>>
where
V::Msg: Clone,
{
if let Some(leaf) = self.leaf.as_ref() {
leaf.get_port::<V>()
} else {
None
}
}
pub fn get_view<V: View + ?Sized + 'static>(&self) -> Option<Arc<V>>
where
V::Msg: Clone,
{
self.get_port::<V>()?
.get_view()
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>
pub fn view_singleton<T: 'static>(&self) -> OuterViewPort<dyn SingletonView<Item = T>> {
self.get_port::<dyn SingletonView<Item = T>>().expect("no singleton-view available")
}
pub fn view_seq<T: 'static>(&self) -> OuterViewPort<dyn SequenceView<Item = T>> {
self.get_port::<dyn SequenceView<Item = T>>().expect("no sequence-view available")
}
pub fn view_list<T: Clone + Send + Sync + 'static>(&self) -> OuterViewPort<dyn ListView<T>> {
self.get_port::<dyn ListView<T>>().expect("no list-view available")
}
pub fn view_char(&self) -> OuterViewPort<dyn SingletonView<Item = char>> {
self.get_port::<dyn SingletonView<Item = char>>().expect("no char-view available")
}
pub fn view_u8(&self) -> OuterViewPort<dyn SingletonView<Item = u8>> {
self.get_port::<dyn SingletonView<Item = u8>>().expect("no u8-view available")
}
pub fn view_u64(&self) -> OuterViewPort<dyn SingletonView<Item = u64>> {
self.get_port::<dyn SingletonView<Item = u64>>().expect("no u64-view available")
}
pub fn view_usize(&self) -> OuterViewPort<dyn SingletonView<Item = usize>> {
self.get_port::<dyn SingletonView<Item = usize>>().expect("no usize-view available")
}
}
//<<<<>>>><<>><><<>><<<*>>><<>><><<>><<<<>>>>