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wip: fix(input): grr
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🪞👃🪞 2025-06-22 09:40:28 +03:00
parent 11f686650f
commit 0b8ca326ef
4 changed files with 184 additions and 63 deletions
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2
dsl/src/lib.rs
View file

@ -5,6 +5,8 @@ pub(crate) use ::tengri_core::*;
pub(crate) use std::fmt::Debug;
pub(crate) use std::sync::Arc;
pub(crate) use std::collections::VecDeque;
pub(crate) use std::path::Path;
pub(crate) use std::fs::exists;
pub(crate) use konst::iter::{ConstIntoIter, IsIteratorKind};
pub(crate) use konst::string::{split_at, str_range, char_indices};
pub(crate) use thiserror::Error;

240
input/src/input_dsl.rs
View file

@ -1,43 +1,70 @@
use crate::*;
/// A collection of input bindings.
/// A collection of input bind.
///
/// Each contained layer defines a mapping from input event to command invocation
/// over a given state. Furthermore, each layer may have an associated condition,
/// over a given state. Furthermore, each layer may have an associated cond,
/// so that only certain layers are active at a given time depending on state.
#[derive(Debug)] pub struct InputLayers<T: Dsl>(Vec<InputLayer<T>>);
/// A single input binding layer.
#[derive(Default, Debug)] struct InputLayer<T: Dsl> {
condition: Option<DslVal<T::Str, T::Exp>>,
bindings: DslVal<T::Str, T::Exp>,
}
/// Input layers start out empty regardless if `T` implements [Default].
impl<T: Dsl> Default for InputLayers<T> { fn default () -> Self { Self(vec![]) } }
/// Bring up an input layer map from a string representation.
impl<'s> From<&'s str> for InputLayers<Ast> {
fn from (source: &'s str) -> Self {
let mut layers = vec![];
let mut source = CstIter::from(source);
while let Some(cst) = source.next() {
panic!("{:?}", cst.value);
layers.push(match cst.value.exp_head().map(|x|x.as_key()).flatten() {
Some("layer") => InputLayer {
condition: None,
bindings: dsl_val(source.nth(1).unwrap()),
},
Some("layer-if") => InputLayer {
condition: Some(dsl_val(source.nth(1).unwrap())),
bindings: dsl_val(source.nth(2).unwrap()),
},
_ => panic!("this shoulda been a TryFrom"),
});
#[derive(Debug, Default)] pub struct InputMap<I, T: Dsl>(std::collections::BTreeMap<I, T>);
impl<I, T: Dsl> InputMap<I, T> {
/// Create input layer collection from path to text file.
pub fn from_path <P: Debug + AsRef<Path>> (path: P) -> Usually<Self> {
if !exists(path.as_ref())? {
return Err(format!("(e5) not found: {path:?}").into())
}
Self(layers)
Self::from_source(read_and_leak(path)?)
}
}
impl<T: Dsl> InputLayers<T> {
/// Create an input map with a single non-conditional layer.
/// Create input layer collection from string.
pub fn from_source <S: AsRef<str>> (source: S) -> Usually<Self> {
Self::from_dsl(CstIter::from(source.as_ref()))
}
/// Create input layer collection from DSL.
pub fn from_dsl (dsl: impl Dsl) -> Usually<Self> {
use DslVal::*;
let mut input_map: Self = Self(Default::default());
while let Exp(_, mut iter) = dsl.val() {
let mut iter = iter.clone();
match iter.next().map(|x|x.value) {
Some(Str(path)) => {
todo!("import");
for (key, val) in InputMap::<I, T>::from_path(path)?.0.into_iter() {
}
},
Some(Exp(_, expr)) if let Some(Sym(sym)) = expr.nth(0) => {
//input_map.unconditional.push(expr);
todo!("binding");
},
Some(Exp(_, expr)) if expr.nth(0) == Some(Key("if")) => {
todo!("conditional binding");
},
_ => return Result::Err("invalid token in keymap".into()),
}
}
Ok(input_map)
}
/// Evaluate the active layers for a given state,
/// returning the command to be executed, if any.
pub fn handle <S, O> (&self, state: &mut S, input: I) -> Perhaps<O> where
S: DslInto<bool> + DslInto<O>,
O: Command<S>
{
todo!();
//let layers = self.0.as_slice();
//for InputLayer { cond, bind } in layers.iter() {
//let mut matches = true;
//if let Some(cond) = cond {
//matches = state.dsl_into(cond, ||format!("input: no cond").into())?;
//}
//if matches
//&& let Some(exp) = bind.val().exp_head()
//&& input.dsl_into(exp, ||format!("InputMap: input.eval(binding) failed").into())?
//&& let Some(command) = state.try_dsl_into(exp)? {
//return Ok(Some(command))
//}
//}
Ok(None)
}
/*
/// Create an input map with a single non-condal layer.
/// (Use [Default::default] to get an empty map.)
pub fn new (layer: DslVal<T::Str, T::Exp>) -> Self {
Self::default().layer(layer)
@ -46,39 +73,128 @@ impl<T: Dsl> InputLayers<T> {
pub fn layer (mut self, layer: DslVal<T::Str, T::Exp>) -> Self {
self.add_layer(layer); self
}
/// Add conditional layer, return `Self`.
pub fn layer_if (mut self, condition: DslVal<T::Str, T::Exp>, layer: DslVal<T::Str, T::Exp>) -> Self {
self.add_layer_if(Some(condition), layer); self
/// Add condal layer, return `Self`.
pub fn layer_if (mut self, cond: DslVal<T::Str, T::Exp>, layer: DslVal<T::Str, T::Exp>) -> Self {
self.add_layer_if(Some(cond), layer); self
}
/// Add layer, return `&mut Self`.
pub fn add_layer (&mut self, layer: DslVal<T::Str, T::Exp>) -> &mut Self {
self.add_layer_if(None, layer.into()); self
}
/// Add conditional layer, return `&mut Self`.
pub fn add_layer_if (&mut self, condition: Option<DslVal<T::Str, T::Exp>>, bindings: DslVal<T::Str, T::Exp>) -> &mut Self {
self.0.push(InputLayer { condition, bindings });
/// Add condal layer, return `&mut Self`.
pub fn add_layer_if (&mut self, cond: Option<DslVal<T::Str, T::Exp>>, bind: DslVal<T::Str, T::Exp>) -> &mut Self {
self.0.push(InputLayer { cond, bind });
self
}
/// Evaluate the active layers for a given state,
/// returning the command to be executed, if any.
pub fn handle <S, I, O> (&self, state: &mut S, input: I) -> Perhaps<O> where
S: DslInto<bool> + DslInto<O>,
I: DslInto<bool>,
O: Command<S>
{
let layers = self.0.as_slice();
for InputLayer { condition, bindings } in layers.iter() {
let mut matches = true;
if let Some(condition) = condition {
matches = state.dsl_into(condition, ||format!("input: no condition").into())?;
}
if matches
&& let Some(exp) = bindings.val().exp_head()
&& input.dsl_into(exp, ||format!("InputLayers: input.eval(binding) failed").into())?
&& let Some(command) = state.try_dsl_into(exp)? {
return Ok(Some(command))
}
}
Ok(None)
}
*/
}
//let mut keys = iter.unwrap();
//let mut map = InputMap::default();
//while let Some(token) = keys.next() {
//if let Value::Exp(_, mut exp) = token.value {
//let next = exp.next();
//if let Some(Token { value: Value::Key(sym), .. }) = next {
//match sym {
//"layer" => {
//if let Some(Token { value: Value::Str(path), .. }) = exp.peek() {
//let path = base.as_ref().parent().unwrap().join(unquote(path));
//if !std::fs::exists(&path)? {
//return Err(format!("(e5) not found: {path:?}").into())
//}
//map.add_layer(read_and_leak(path)?.into());
//print!("layer:\n path: {:?}...", exp.0.0.trim());
//println!("ok");
//} else {
//return Err(format!("(e4) unexpected non-string {next:?}").into())
//}
//},
//"layer-if" => {
//let mut cond = None;
//if let Some(Token { value: Value::Sym(sym), .. }) = exp.next() {
//cond = Some(leak(sym));
//} else {
//return Err(format!("(e4) unexpected non-symbol {next:?}").into())
//};
//if let Some(Token { value: Value::Str(path), .. }) = exp.peek() {
//let path = base.as_ref().parent().unwrap().join(unquote(path));
//if !std::fs::exists(&path)? {
//return Err(format!("(e5) not found: {path:?}").into())
//}
//print!("layer-if:\n cond: {}\n path: {path:?}...",
//cond.unwrap_or_default());
//let keys = read_and_leak(path)?.into();
//let cond = cond.unwrap();
//println!("ok");
//map.add_layer_if(
//Box::new(move |state: &App|Take::take_or_fail(
//state, exp, ||"missing input layer conditional"
//)), keys
//);
//} else {
//return Err(format!("(e4) unexpected non-symbol {next:?}").into())
//}
//},
//_ => return Err(format!("(e3) unexpected symbol {sym:?}").into())
//}
//} else {
//return Err(format!("(e2) unexpected exp {:?}", next.map(|x|x.value)).into())
//}
//} else {
//return Err(format!("(e1) unexpected token {token:?}").into())
//}
//}
//Ok(map)
//}
//{
//}
//fn from (source: &'s str) -> Self {
//// this should be for single layer:
//use DslVal::*;
//let mut layers = vec![];
//let mut source = CstIter::from(source);
//while let Some(Exp(_, mut iter)) = source.next().map(|x|x.value) {
//let mut iter = iter.clone();
//layers.push(match iter.next().map(|x|x.value) {
//Some(Sym(sym)) if sym.starts_with("@") => InputLayer {
//cond: None,
//bind: vec![[
//dsl_val(source.nth(1).unwrap()),
//dsl_val(source.nth(2).unwrap()),
//]],
//},
//Some(Str(layer)) => InputLayer {
//cond: None,
//bind: dsl_val(source.nth(1).unwrap()),
//},
//Some(Key("if")) => InputLayer {
//cond: Some(dsl_val(source.nth(1).unwrap())),
//bind: dsl_val(source.nth(2).unwrap()),
//},
//_ => panic!("invalid token in keymap"),
//})
//}
//Self(layers)
//}
//}
fn unquote (x: &str) -> &str {
let mut chars = x.chars();
chars.next();
//chars.next_back();
chars.as_str()
}
fn read_and_leak (path: impl AsRef<Path>) -> Usually<&'static str> {
Ok(leak(String::from_utf8(std::fs::read(path.as_ref())?)?))
}
fn leak (x: impl AsRef<str>) -> &'static str {
Box::leak(x.as_ref().into())
}

3
input/src/lib.rs
View file

@ -1,6 +1,9 @@
#![feature(associated_type_defaults)]
#![feature(if_let_guard)]
pub(crate) use std::fmt::Debug;
pub(crate) use std::path::Path;
pub(crate) use std::fs::exists;
pub(crate) use tengri_core::*;
mod input_macros;

2
tengri/src/test.rs
View file

@ -35,7 +35,7 @@ use crossterm::event::{Event, KeyEvent, KeyCode, KeyModifiers, KeyEventKind, Key
}
let mut test = Test {
keys: InputLayers::from("
keys: InputMap::from_source("
(@a do-thing)
(@b do-thing-arg 0)
(@c do-sub do-other-thing)