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wip: refactor(output): pen and paper ftw

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same mf who else 2026-02-14 19:43:04 +02:00
parent 501782f8fe
commit eaa05b7f09
26 changed files with 1701 additions and 1697 deletions
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211
output/src/layout/layout_cond.rs
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@ -1,211 +0,0 @@
use crate::*;
/// Show an item only when a condition is true.
pub struct When<O, T>(bool, T, PhantomData<O>);
impl<O: Out, T: Content<O>> When<O, T> {
/// Create a binary condition.
pub const fn new (c: bool, a: T) -> Self { Self(c, a, PhantomData) }
}
impl<O: Out, T: Layout<O>> Layout<O> for When<O, T> {
fn layout (&self, to: O::Area) -> O::Area {
let Self(cond, item, ..) = self;
if *cond { item.layout(to) } else { O::Area::zero().into() }
}
}
impl<O: Out, T: Content<O>> Draw<O> for When<O, T> {
fn draw (&self, to: &mut O) {
let Self(cond, item, ..) = self;
if *cond { Bounded(self.layout(to.area()), item).draw(to) }
}
}
/// Show one item if a condition is true and another if the condition is false
pub struct Either<E: Out, A, B>(pub bool, pub A, pub B, pub PhantomData<E>);
impl<E: Out, A: Content<E>, B: Content<E>> Either<E, A, B> {
/// Create a ternary view condition.
pub const fn new (c: bool, a: A, b: B) -> Self {
Self(c, a, b, PhantomData)
}
}
impl<E: Out, A: Layout<E>, B: Layout<E>> Layout<E> for Either<E, A, B> {
fn layout (&self, to: E::Area) -> E::Area {
let Self(cond, a, b, ..) = self;
if *cond { a.layout(to) } else { b.layout(to) }
}
}
impl<E: Out, A: Content<E>, B: Content<E>> Draw<E> for Either<E, A, B> {
fn draw (&self, to: &mut E) {
let Self(cond, a, b, ..) = self;
let area = self.layout(to.area());
if *cond { Bounded(area, a).draw(to) } else { Bounded(area, b).draw(to) }
}
}
///////////////////////////////////////////////////////////////////////////////
///// The syntagm `(when :condition :content)` corresponds to a [When] layout element.
//impl<S, A> FromDsl<S> for When<A> where bool: FromDsl<S>, A: FromDsl<S> {
//fn try_provide (state: &S, source: &DslVal<impl DslStr, impl DslExpr>) -> Perhaps<Self> {
//source.exp_match("when", |_, tail|Ok(Some(Self(
//FromDsl::<S>::provide(state,
//tail.nth(0, ||"no condition".into())?, ||"no condition".into())?,
//FromDsl::<S>::provide(state,
//tail.nth(1, ||"no content".into())?, ||"no content".into())?,
//))))
//}
//}
///// The syntagm `(either :condition :content1 :content2)` corresponds to an [Either] layout element.
//impl<S, A, B> FromDsl<S> for Either<A, B> where S: Eval<Ast, bool> + Eval<Ast, A> + Eval<Ast, B> {
//fn try_provide (state: &S, source: &DslVal<impl DslStr, impl DslExpr>) -> Perhaps<Self> {
//source.exp_match("either", |_, tail|Ok(Some(Self(
//state.eval(tail.nth(0, ||"no condition")?, ||"no condition")?,
//state.eval(tail.nth(1, ||"no content 1")?, ||"no content 1")?,
//state.eval(tail.nth(2, ||"no content 1")?, ||"no content 2")?,
//))))
//}
//}
///// The syntagm `(align/* :content)` corresponds to an [Align] layout element,
///// where `*` specifies the direction of the alignment.
//impl<S, A> FromDsl<S> for Align<A> where S: Eval<Option<Ast>, A> {
//fn try_provide (state: &S, source: &DslVal<impl DslStr, impl DslExpr>) -> Perhaps<Self> {
//source.exp_match("align/", |head, tail|Ok(Some(match head {
//"c" => Self::c(state.eval(tail.nth(0, ||"no content")?, ||"no content")),
//"x" => Self::x(state.eval(tail.nth(0, ||"no content")?, ||"no content")),
//"y" => Self::y(state.eval(tail.nth(0, ||"no content")?, ||"no content")),
//"n" => Self::n(state.eval(tail.nth(0, ||"no content")?, ||"no content")),
//"s" => Self::s(state.eval(tail.nth(0, ||"no content")?, ||"no content")),
//"e" => Self::e(state.eval(tail.nth(0, ||"no content")?, ||"no content")),
//"w" => Self::w(state.eval(tail.nth(0, ||"no content")?, ||"no content")),
//"nw" => Self::nw(state.eval(tail.nth(0, ||"no content")?, ||"no content")),
//"ne" => Self::ne(state.eval(tail.nth(0, ||"no content")?, ||"no content")),
//"sw" => Self::sw(state.eval(tail.nth(0, ||"no content")?, ||"no content")),
//"se" => Self::se(state.eval(tail.nth(0, ||"no content")?, ||"no content")),
//_ => return Err("invalid align variant".into())
//})))
//}
//}
///// The syntagm `(bsp/* :content1 :content2)` corresponds to a [Bsp] layout element,
///// where `*` specifies the direction of the split.
//impl<S, A, B> FromDsl<S> for Bsp<A, B> where S: Eval<Option<Ast>, A> + Eval<Option<Ast>, B> {
//fn try_provide (state: &S, source: &DslVal<impl DslStr, impl DslExpr>) -> Perhaps<Self> {
//source.exp_match("bsp/", |head, tail|Ok(Some(match head {
//"n" => Self::n(tail.nth(0, ||"no content 1"), tail.nth(1, ||"no content 2")),
//"s" => Self::s(tail.nth(0, ||"no content 1"), tail.nth(1, ||"no content 2")),
//"e" => Self::e(tail.nth(0, ||"no content 1"), tail.nth(1, ||"no content 2")),
//"w" => Self::w(tail.nth(0, ||"no content 1"), tail.nth(1, ||"no content 2")),
//"a" => Self::a(tail.nth(0, ||"no content 1"), tail.nth(1, ||"no content 2")),
//"b" => Self::b(tail.nth(0, ||"no content 1"), tail.nth(1, ||"no content 2")),
//_ => return Ok(None),
//})))
//}
//}
//#[cfg(feature = "dsl")] take!($Enum<A>, A|state, words|Ok(
//if let Some(Token { value: Key(k), .. }) = words.peek() {
//let mut base = words.clone();
//let content = state.give_or_fail(words, ||format!("{k}: no content"))?;
//return Ok(Some(match words.next() {
//Some(Token{value: Key($x),..}) => Self::x(content),
//Some(Token{value: Key($y),..}) => Self::y(content),
//Some(Token{value: Key($xy),..}) => Self::XY(content),
//_ => unreachable!()
//}))
//} else {
//None
//}));
//#[cfg(feature = "dsl")] take!($Enum<U, A>, U, A|state, words|Ok(
//if let Some(Token { value: Key($x|$y|$xy), .. }) = words.peek() {
//let mut base = words.clone();
//Some(match words.next() {
//Some(Token { value: Key($x), .. }) => Self::x(
//state.give_or_fail(words, ||"x: no unit")?,
//state.give_or_fail(words, ||"x: no content")?,
//),
//Some(Token { value: Key($y), .. }) => Self::y(
//state.give_or_fail(words, ||"y: no unit")?,
//state.give_or_fail(words, ||"y: no content")?,
//),
//Some(Token { value: Key($x), .. }) => Self::XY(
//state.give_or_fail(words, ||"xy: no unit x")?,
//state.give_or_fail(words, ||"xy: no unit y")?,
//state.give_or_fail(words, ||"xy: no content")?
//),
//_ => unreachable!(),
//})
//} else {
//None
//}));
//if let Exp(_, exp) = source.value() {
//let mut rest = exp.clone();
//return Ok(Some(match rest.next().as_ref().and_then(|x|x.key()) {
//Some("bsp/n") => Self::n(
//state.eval(rest.next(), ||"bsp/n: no content 1")?,
//state.eval(rest.next(), ||"bsp/n: no content 2")?,
//),
//Some("bsp/s") => Self::s(
//state.eval(rest.next(), ||"bsp/s: no content 1")?,
//state.eval(rest.next(), ||"bsp/s: no content 2")?,
//),
//Some("bsp/e") => Self::e(
//state.eval(rest.next(), ||"bsp/e: no content 1")?,
//state.eval(rest.next(), ||"bsp/e: no content 2")?,
//),
//Some("bsp/w") => Self::w(
//state.eval(rest.next(), ||"bsp/w: no content 1")?,
//state.eval(rest.next(), ||"bsp/w: no content 2")?,
//),
//Some("bsp/a") => Self::a(
//state.eval(rest.next(), ||"bsp/a: no content 1")?,
//state.eval(rest.next(), ||"bsp/a: no content 2")?,
//),
//Some("bsp/b") => Self::b(
//state.eval(rest.next(), ||"bsp/b: no content 1")?,
//state.eval(rest.next(), ||"bsp/b: no content 2")?,
//),
//_ => return Ok(None),
//}))
//}
//Ok(None)
//if let Exp(_, source) = source.value() {
//let mut rest = source.clone();
//return Ok(Some(match rest.next().as_ref().and_then(|x|x.key()) {
//Some("align/c") => Self::c(state.eval(rest.next(), ||"align/c: no content")?),
//Some("align/x") => Self::x(state.eval(rest.next(), ||"align/x: no content")?),
//Some("align/y") => Self::y(state.eval(rest.next(), ||"align/y: no content")?),
//Some("align/n") => Self::n(state.eval(rest.next(), ||"align/n: no content")?),
//Some("align/s") => Self::s(state.eval(rest.next(), ||"align/s: no content")?),
//Some("align/e") => Self::e(state.eval(rest.next(), ||"align/e: no content")?),
//Some("align/w") => Self::w(state.eval(rest.next(), ||"align/w: no content")?),
//Some("align/nw") => Self::nw(state.eval(rest.next(), ||"align/nw: no content")?),
//Some("align/ne") => Self::ne(state.eval(rest.next(), ||"align/ne: no content")?),
//Some("align/sw") => Self::sw(state.eval(rest.next(), ||"align/sw: no content")?),
//Some("align/se") => Self::se(state.eval(rest.next(), ||"align/se: no content")?),
//_ => return Ok(None),
//}))
//}
//Ok(None)
//Ok(match source.exp_head().and_then(|e|e.key()) {
//Some("either") => Some(Self(
//source.exp_tail().and_then(|t|t.get(0)).map(|x|state.eval(x, ||"when: no condition"))?,
//source.exp_tail().and_then(|t|t.get(1)).map(|x|state.eval(x, ||"when: no content 1"))?,
//source.exp_tail().and_then(|t|t.get(2)).map(|x|state.eval(x, ||"when: no content 2"))?,
//)),
//_ => None
//})
//if let Exp(_, mut exp) = source.value()
//&& let Some(Ast(Key(id))) = exp.peek() && *id == *"either" {
//let _ = exp.next();
//return Ok(Some(Self(
//state.eval(exp.next().unwrap(), ||"either: no condition")?,
//state.eval(exp.next().unwrap(), ||"either: no content 1")?,
//state.eval(exp.next().unwrap(), ||"either: no content 2")?,
//)))
//}
//Ok(None)
//Ok(match source.exp_head().and_then(|e|e.key()) {
//Some("when") => Some(Self(
//source.exp_tail().and_then(|t|t.get(0)).map(|x|state.eval(x, ||"when: no condition"))?,
//source.exp_tail().and_then(|t|t.get(1)).map(|x|state.eval(x, ||"when: no content"))?,
//)),
//_ => None
//})