automatically generate list-map morphisms in find_morphism()

this allows us to now to create <List EditTree> from <List Char>
with apply_morphism()
This commit is contained in:
Michael Sippel 2024-08-02 21:58:07 +02:00
parent 6e8bb0aeb5
commit a3c701ce88
Signed by: senvas
GPG key ID: F96CF119C34B64A6
8 changed files with 150 additions and 148 deletions

View file

@ -37,7 +37,7 @@ fn rebuild_projections(
repr_tree: Arc<RwLock<ReprTree>>,
morph_types: Vec< (laddertypes::TypeTerm, laddertypes::TypeTerm) >
) {
// repr_tree.write().unwrap().detach(&ctx);
repr_tree.write().unwrap().detach(&ctx);
for (src_type, dst_type) in morph_types.iter() {
ctx.read().unwrap().morphisms.apply_morphism(
repr_tree.clone(),
@ -48,8 +48,6 @@ fn rebuild_projections(
}
fn setup_le_master(ctx: &Arc<RwLock<Context>>, rt_int: &Arc<RwLock<ReprTree>>) {
rt_int.write().unwrap().detach(&ctx);
rebuild_projections(
ctx.clone(),
rt_int.clone(),
@ -79,33 +77,17 @@ fn setup_le_master(ctx: &Arc<RwLock<Context>>, rt_int: &Arc<RwLock<ReprTree>>) {
" ~ <PosInt 16 BigEndian> ~ <Seq <Digit 16>> ~ <List <Digit 16> ~ Char ~ EditTree> ~ <Vec EditTree>",
" ~ <PosInt 16 BigEndian> ~ <Seq <Digit 16>> ~ <List <Digit 16> ~ Char> ~ EditTree"
),
].into_iter()
.map(|(s,d)| (Context::parse(&ctx, s), Context::parse(&ctx, d)))
.collect()
);
let rt_digitseq =
rt_int.descend(Context::parse(&ctx, "
<PosInt 16 LittleEndian>
~ <Seq <Digit 16>>
~ <List <Digit 16>>
")).expect("test");
let src_type = Context::parse(&ctx, "<Digit 16> ~ Char");
let dst_type = Context::parse(&ctx, "<Digit 16> ~ _2^64 ~ machine.UInt64");
ctx.read().unwrap().morphisms
.apply_list_map_morphism::<char, u64>(
rt_digitseq, src_type, dst_type
);
rebuild_projections(
ctx.clone(),
rt_int.clone(),
vec![
// convert to different digit-representation
(
" ~ <PosInt 16 LittleEndian> ~ <Seq <Digit 16>> ~ <List <Digit 16> ~ Char>",
" ~ <PosInt 16 LittleEndian> ~ <Seq <Digit 16>> ~ <List <Digit 16> ~ _2^64 ~ machine.UInt64>"
),
// Radix Convert
(
" ~ <PosInt 16 LittleEndian> ~ <Seq <Digit 16>> ~ <List <Digit 16> ~ _2^64 ~ machine.UInt64>",
" ~ <PosInt 10 LittleEndian> ~ <Seq <Digit 10>> ~ <List <Digit 10> ~ _2^64 ~ machine.UInt64>"
)
),
].into_iter()
.map(|(s,d)| (Context::parse(&ctx, s), Context::parse(&ctx, d)))
.collect()
@ -113,8 +95,6 @@ fn setup_le_master(ctx: &Arc<RwLock<Context>>, rt_int: &Arc<RwLock<ReprTree>>) {
}
fn setup_be_master(ctx: &Arc<RwLock<Context>>, rt_int: &Arc<RwLock<ReprTree>>) {
rt_int.write().unwrap().detach(&ctx);
rebuild_projections(
ctx.clone(),
rt_int.clone(),
@ -144,34 +124,18 @@ fn setup_be_master(ctx: &Arc<RwLock<Context>>, rt_int: &Arc<RwLock<ReprTree>>) {
" ~ <PosInt 16 LittleEndian> ~ <Seq <Digit 16>> ~ <List <Digit 16> ~ Char ~ EditTree> ~ <Vec EditTree>",
" ~ <PosInt 16 LittleEndian> ~ <Seq <Digit 16>> ~ <List <Digit 16> ~ Char> ~ EditTree"
),
].into_iter()
.map(|(s,d)| (Context::parse(&ctx, s), Context::parse(&ctx, d)))
.collect()
);
let rt_digitseq =
rt_int.descend(Context::parse(&ctx, "
<PosInt 16 LittleEndian>
~ <Seq <Digit 16>>
~ <List <Digit 16>>
")).expect("test");
let src_type = Context::parse(&ctx, "<Digit 16> ~ Char");
let dst_type = Context::parse(&ctx, "<Digit 16> ~ _2^64 ~ machine.UInt64");
ctx.read().unwrap().morphisms
.apply_list_map_morphism::<char, u64>(
rt_digitseq, src_type, dst_type
);
rebuild_projections(
ctx.clone(),
rt_int.clone(),
vec![
// Little Endian Editor
// convert to different digit-representation
(
" ~ <PosInt 16 LittleEndian> ~ <Seq <Digit 16>> ~ <List <Digit 16> ~ Char>",
" ~ <PosInt 16 LittleEndian> ~ <Seq <Digit 16>> ~ <List <Digit 16> ~ _2^64 ~ machine.UInt64>"
),
// Radix Convert
(
" ~ <PosInt 16 LittleEndian> ~ <Seq <Digit 16>> ~ <List <Digit 16> ~ _2^64 ~ machine.UInt64>",
" ~ <PosInt 10 LittleEndian> ~ <Seq <Digit 10>> ~ <List <Digit 10> ~ _2^64 ~ machine.UInt64>"
),
)
].into_iter()
.map(|(s,d)| (Context::parse(&ctx, s), Context::parse(&ctx, d)))
.collect()
@ -272,7 +236,8 @@ async fn main() {
~ <List Char>
")).expect("descend"),
SingletonBuffer::new(0).get_port()
).unwrap();
).unwrap().get();
let edittree_hex_be_list = ctx.read().unwrap()
.setup_edittree(
rt_int.descend(Context::parse(&ctx,"
@ -282,23 +247,9 @@ async fn main() {
~ <List Char>
")).expect("descend"),
SingletonBuffer::new(0).get_port()
).unwrap();
).unwrap().get();
let rt_digitseq =
rt_int.descend(Context::parse(&ctx, "
<PosInt 16 LittleEndian>
~ <Seq <Digit 16>>
~ <List <Digit 16>>
")).expect("test");
let src_type = Context::parse(&ctx, "<Digit 16> ~ Char");
let dst_type = Context::parse(&ctx, "<Digit 16> ~ _2^64 ~ machine.UInt64");
ctx.read().unwrap().morphisms
.apply_list_map_morphism::<char, u64>(
rt_digitseq, src_type, dst_type
);
let hex_digits_view = rt_int.descend(Context::parse(&ctx, "
<PosInt 16 LittleEndian>
~ <Seq <Digit 16> >
@ -328,15 +279,15 @@ async fn main() {
/* list of both editors
*/
let mut list_editor = nested::editors::list::ListEditor::new(ctx.clone(), Context::parse(&ctx, "<Seq Char>"));
list_editor.data.push( edittree_hex_be_list.value.clone() );
list_editor.data.push( edittree_hex_le_list.value.clone() );
list_editor.data.push( edittree_hex_be_list.clone() );
list_editor.data.push( edittree_hex_le_list.clone() );
let mut edittree = list_editor.into_node(SingletonBuffer::new(0).get_port());
/* cursors are a bit screwed initially so fix them up
* TODO: how to fix this generally?
*/
edittree_hex_be_list.get().goto(TreeCursor::none());
edittree_hex_le_list.get().goto(TreeCursor::none());
edittree_hex_be_list.write().unwrap().goto(TreeCursor::none());
edittree_hex_le_list.write().unwrap().goto(TreeCursor::none());
edittree.goto(TreeCursor{
leaf_mode: nested::editors::list::ListCursorMode::Insert,
tree_addr: vec![1,0]
@ -393,7 +344,7 @@ async fn main() {
{
let rt_edittree = rt.descend(Context::parse(&ctx, "EditTree")).expect("descend");
let halo_type = rt_edittree.read().unwrap().get_halo_type().clone();
let edittree = rt_edittree.read().unwrap().get_view::<dyn r3vi::view::singleton::SingletonView<Item = EditTree>>().unwrap().get();
let edittree = rt_edittree.read().unwrap().get_view::<dyn r3vi::view::singleton::SingletonView<Item = Arc<RwLock<EditTree>>>>().unwrap().get().read().unwrap().clone();
comp.push( nested_tty::make_label( &ctx.read().unwrap().type_term_to_str(&halo_type) )
.map_item(|_pt, atom| atom.add_style_front(TerminalStyle::fg_color((90,90,90))))

View file

@ -56,7 +56,12 @@ pub fn init_ctx( ctx: Arc<RwLock<Context>> ) {
rt.insert_leaf(
Context::parse(&ctx, "EditTree"),
ReprLeaf::from_singleton_buffer(SingletonBuffer::new(edittree))
ReprLeaf::from_singleton_buffer(SingletonBuffer::new(Arc::new(RwLock::new(edittree))))
);
ctx.read().unwrap().setup_edittree(
rt.clone(),
SingletonBuffer::new(0).get_port()
);
}
}

View file

@ -19,7 +19,7 @@ pub fn init_ctx( ctx: Arc<RwLock<Context>> ) {
// todo: proper scoping of Radix variable
ctx.write().unwrap().add_varname("Radix");
/*
let morphtype =
crate::repr_tree::MorphismType {
src_type: Context::parse(&ctx, "<Digit Radix>"),
@ -76,7 +76,7 @@ pub fn init_ctx( ctx: Arc<RwLock<Context>> ) {
}
}
);
*/
let morphtype =
crate::repr_tree::MorphismType {
src_type: Context::parse(&ctx, "<Digit Radix>~Char"),

View file

@ -24,7 +24,7 @@ use {
pub fn init_ctx(ctx: Arc<RwLock<Context>>) {
ctx.write().unwrap().add_varname("Item");
/*
let mt = crate::repr_tree::MorphismType {
src_type: Context::parse(&ctx, "<List Char>"),
dst_type: Context::parse(&ctx, "<List Char~EditTree>")
@ -66,7 +66,7 @@ pub fn init_ctx(ctx: Arc<RwLock<Context>>) {
}
}
});
*/
let mt = crate::repr_tree::MorphismType {
src_type: Context::parse(&ctx, "<List Item>~<List EditTree>~<Vec EditTree>"),
dst_type: Context::parse(&ctx, "<List Item>~EditTree")
@ -94,7 +94,7 @@ pub fn init_ctx(ctx: Arc<RwLock<Context>>) {
Context::parse(&ctx, "<List Item> ~ EditTree")
.apply_substitution(&|id| σ.get(id).cloned()).clone(),
ReprLeaf::from_singleton_buffer(
SingletonBuffer::new(edittree_list)
SingletonBuffer::new(Arc::new(RwLock::new(edittree_list)))
)
);
} else {
@ -115,9 +115,9 @@ pub fn init_ctx(ctx: Arc<RwLock<Context>>) {
let edittree =
src_rt
.descend(Context::parse(&ctx, "<List Char>~EditTree")).unwrap()
.singleton_buffer::<EditTree>();
.singleton_buffer::<Arc<RwLock<EditTree>>>();
let list_edit = edittree.get().get_edit::< ListEditor >().unwrap();
let list_edit = edittree.get().read().unwrap().get_edit::< ListEditor >().unwrap();
let edittree_items = list_edit.read().unwrap().data.get_port().to_list();
src_rt.insert_leaf(

View file

@ -327,7 +327,8 @@ impl ListEditor {
if let Some(edittree) = et.as_mut(){
let mut tail_node = edittree.get_mut();
let mut tail_node = edittree.get();
let mut tail_node = tail_node.write().unwrap();
tail_node.goto(TreeCursor::home());
for node in b.iter() {
@ -353,7 +354,7 @@ impl ListEditor {
drop(tail_node);
self.insert(
edittree.value.clone()
edittree.value.read().unwrap().clone()
);
}

View file

@ -179,25 +179,14 @@ impl Context {
&self,
rt: Arc<RwLock<ReprTree>>,
depth: OuterViewPort<dyn SingletonView<Item = usize>>
) -> Option<SingletonBuffer<EditTree>> {
let ladder = TypeTerm::Ladder(vec![
rt.read().unwrap().get_type().clone(),
self.type_term_from_str("EditTree").expect("")
]);
self.morphisms.apply_morphism(
rt.clone(),
&rt.get_type(),
&ladder
);
) -> Option<SingletonBuffer<Arc<RwLock<EditTree>>>> {
if let Some(new_edittree) =
rt.descend(self.type_term_from_str("EditTree").unwrap())
{
let typ = rt.read().unwrap().get_type().clone();
let buf = new_edittree.singleton_buffer::<EditTree>();
let buf = new_edittree.singleton_buffer::<Arc<RwLock<EditTree>>>();
(*self.edittree_hook)(
&mut *buf.get_mut(),
&mut *buf.get().write().unwrap(),
typ
);
Some(buf)

View file

@ -65,9 +65,48 @@ impl MorphismBase {
&self,
src_type: &TypeTerm,
dst_type: &TypeTerm
) -> Option<(&GenericReprTreeMorphism, HashMap<TypeID, TypeTerm>)> {
for m in self.morphisms.iter() {
) -> Option<(GenericReprTreeMorphism, HashMap<TypeID, TypeTerm>)> {
// try list-map morphism
if let Ok(σ) = laddertypes::UnificationProblem::new(vec![
(src_type.clone().param_normalize(), TypeTerm::App(vec![ TypeTerm::TypeID(TypeID::Fun(10)), TypeTerm::TypeID(TypeID::Var(100)) ])),
(dst_type.clone().param_normalize(), TypeTerm::App(vec![ TypeTerm::TypeID(TypeID::Fun(10)), TypeTerm::TypeID(TypeID::Var(101)) ])),
]).solve() {
let src_item_type = σ.get(&TypeID::Var(100)).unwrap().clone();
let dst_item_type = σ.get(&TypeID::Var(101)).unwrap().clone();
/*
eprintln!("Got a List- Type, check if we find a list-map morphism");
eprintln!("src-item-type : {:?}", src_item_type);
eprintln!("dst-item-type : {:?}", dst_item_type);
*/
let src_item_type_lnf = src_item_type.clone().get_lnf_vec();
let dst_item_type_lnf = dst_item_type.clone().get_lnf_vec();
/* if src_item_type ~== "Char",
dst_item_type ~== "machine.UInt64"
*/
if src_item_type_lnf.last() == Some(&TypeTerm::TypeID(TypeID::Fun(0))) &&
dst_item_type_lnf.last() == Some(&TypeTerm::TypeID(TypeID::Fun(4)))
{
if let Some((m, σ)) = self.find_list_map_morphism::< char, u64 >( src_item_type, dst_item_type ) {
return Some((m, σ));
}
}
/* if src_item_type ~== "Char"
dst_item_type ~== "EditTree"
*/
else if src_item_type_lnf.last() == Some(&TypeTerm::TypeID(TypeID::Fun(0))) &&
dst_item_type_lnf.last() == Some(&TypeTerm::TypeID(TypeID::Fun(1)))
{
if let Some((m, σ)) = self.find_list_map_morphism::< char, Arc<RwLock<crate::edit_tree::EditTree>> >( src_item_type, dst_item_type ) {
return Some((m, σ));
}
}
}
// otherwise
for m in self.morphisms.iter() {
let unification_problem = laddertypes::UnificationProblem::new(
vec![
( src_type.clone().normalize(), m.morph_type.src_type.clone() ),
@ -77,7 +116,7 @@ impl MorphismBase {
let unification_result = unification_problem.solve();
if let Ok(σ) = unification_result {
return Some((m, σ));
return Some((m.clone(), σ));
}
}
@ -90,7 +129,7 @@ impl MorphismBase {
src_type: &TypeTerm,
dst_type: &TypeTerm,
) -> Option<(
&GenericReprTreeMorphism,
GenericReprTreeMorphism,
TypeTerm,
HashMap<TypeID, TypeTerm>
)> {
@ -129,33 +168,21 @@ impl MorphismBase {
}
}
pub fn apply_list_map_morphism<
pub fn find_list_map_morphism<
SrcItem: Clone + Send + Sync + 'static,
DstItem: Clone + Send + Sync + 'static
>(
&self,
repr_tree: Arc<RwLock<ReprTree>>,
mut src_item_type: TypeTerm,
mut dst_item_type: TypeTerm
) {
if let Some((item_morphism, s, σ)) = self.find_morphism_ladder( &src_item_type, &dst_item_type ) {
let sl = s.get_lnf_vec().len()+1;
) -> Option<
( GenericReprTreeMorphism, HashMap< TypeID, TypeTerm > )
>
{
if let Some((item_morphism, σ)) = self.find_morphism( &src_item_type, &dst_item_type ) {
(&mut src_item_type).apply_substitution( &|v| σ.get(v).clone().cloned() );
(&mut dst_item_type).apply_substitution( &|v| σ.get(v).clone().cloned() );
let src_item_type =
TypeTerm::Ladder({
let mut l = src_item_type.clone().get_lnf_vec();
for i in 0..sl { l.remove(0); }
l
});
let dst_item_type =
TypeTerm::Ladder({
let mut l = dst_item_type.clone().get_lnf_vec();
for i in 0..sl { l.remove(0); }
l
});
let src_lst_type =
TypeTerm::App(vec![
TypeTerm::TypeID(TypeID::Fun(10 /* FIXME: remove magic */)),
@ -167,37 +194,54 @@ impl MorphismBase {
dst_item_type.clone()
]);
let src_port = repr_tree.descend( src_lst_type ).expect("descend src seq")
let sigmalol = σ.clone();
let m = GenericReprTreeMorphism{
morph_type: MorphismType {
src_type: src_lst_type.clone(),
dst_type: dst_lst_type.clone(),
},
setup_projection: Arc::new(move |repr_tree, subst| {
let src_port = repr_tree.descend( src_lst_type.clone() ).expect("descend src seq")
.view_list::<SrcItem>();
let dst_view = src_port.map({
let src_item_type = src_item_type.clone();
let dst_item_type = dst_item_type.clone();
let item_morphism = item_morphism.clone();
let subst = subst.clone();
let dst_view = src_port.map(
move |x| {
let mut item_ladder = src_item_type.clone().get_lnf_vec();
let mut item_rt = ReprTree::from_singleton_buffer(
item_ladder.remove( item_ladder.len() - 1 ),
r3vi::buffer::singleton::SingletonBuffer::new(x.clone())
);
while item_ladder.len() > 0 {
let mut n = ReprTree::new_arc( item_ladder.remove( item_ladder.len() - 1) );
n.insert_branch( item_rt );
item_rt = n;
}
(item_morphism.setup_projection)( &mut item_rt, &σ );
(item_morphism.setup_projection)( &mut item_rt, &subst );
item_rt.descend( dst_item_type.clone() ).expect("descend to item rt")
.view_singleton::< DstItem >()
.get_view().unwrap()
.get()
}
});
);
repr_tree.attach_leaf_to(
dst_lst_type,
dst_lst_type.clone(),
dst_view as r3vi::view::OuterViewPort::< dyn r3vi::view::list::ListView<DstItem> >
);
})
};
Some((m, σ))
} else {
eprintln!("could not find item morphism");
eprintln!("could not find item morphism\n");
None
}
}
}

View file

@ -223,6 +223,17 @@ impl PTYListController {
match cur.mode {
ListCursorMode::Insert => {
let rt = ReprTree::new_arc(e.typ.clone());
let ladder = laddertypes::TypeTerm::Ladder(vec![
rt.read().unwrap().get_type().clone(),
ctx.type_term_from_str("EditTree").expect("")
]);
ctx.morphisms.apply_morphism(
rt.clone(),
&rt.get_type(),
&ladder
);
let new_edittree = ctx.setup_edittree(
rt,
self.depth.map(|d| d+1)
@ -231,10 +242,11 @@ impl PTYListController {
if let Some(new_edittree) = new_edittree {
let mut ne = new_edittree.get();
let mut ne = ne.write().unwrap();
match ne.send_cmd_obj(cmd_obj.clone()) {
TreeNavResult::Continue => {
drop(ne);
e.insert(new_edittree.value.clone());
e.insert(new_edittree.value.read().unwrap().clone());
TreeNavResult::Continue
}
TreeNavResult::Exit => {