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unspeaker:main
unspeaker:v0.13.0
unspeaker:v0.12.0
unspeaker:v0.11.0
unspeaker:v0.10.0
unspeaker:v0.9.1
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compare: unspeaker:93b1cf1a5cebb22909c914a40e9685af125d7d42
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unspeaker:main
unspeaker:v0.13.0
unspeaker:v0.12.0
unspeaker:v0.11.0
unspeaker:v0.10.0
unspeaker:v0.9.1
unspeaker:v0.9.0
unspeaker:v0.8.0
unspeaker:v0.7.1
unspeaker:v0.7.0
unspeaker:v0.6.1
unspeaker:v0.6.0
unspeaker:v0.5.2
unspeaker:0.5.2
unspeaker:0.5.1
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unspeaker:v0.3.4
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unspeaker:v0.3.1
unspeaker:v0.3.0
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unspeaker:v0.1.2
unspeaker:v0.1.1
unspeaker:v0.1.0

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84
dsl/src/dsl_ast.rs
View file

@ -1,46 +1,70 @@
use crate::*;
use std::sync::Arc;
use std::borrow::Cow;
use std::fmt::{Debug, Display, Formatter};
#[derive(Debug, Clone, Default, PartialEq)]
pub struct Ast(pub Value<Arc<str>, AstIter>);
#[derive(Clone, Default, Debug)]
pub enum Ast {
#[default] Nil,
Err(DslError),
Num(usize),
Sym(Arc<str>),
Key(Arc<str>),
Str(Arc<str>),
Exp(Arc<Box<dyn AstIter>>),
}
impl<'source> From<CstToken<'source>> for Ast {
fn from (token: CstToken<'source>) -> Self {
token.value().into()
/// Emits tokens.
pub trait AstIter: Debug {
fn peek (&self) -> Option<Ast>;
fn next (&mut self) -> Option<Ast>;
fn rest (self) -> Option<Box<dyn AstIter>>;
}
/// A [Cst] can be used as an [Ast].
impl<'source: 'static> AstIter for Cst<'source> {
fn peek (&self) -> Option<Ast> {
Cst::peek(self).map(|token|token.value.into())
}
fn next (&mut self) -> Option<Ast> {
Iterator::next(self).map(|token|token.value.into())
}
fn rest (self) -> Option<Box<dyn AstIter>> {
self.peek().is_some().then(||Box::new(self) as Box<dyn AstIter>)
}
}
impl<'source> From<CstValue<'source>> for Ast {
fn from (value: CstValue<'source>) -> Self {
use Value::*;
Self(match value {
Nil => Nil,
Err(e) => Err(e),
Num(u) => Num(u),
Sym(s) => Sym(s.into()),
Key(s) => Key(s.into()),
Str(s) => Str(s.into()),
Exp(d, x) => Exp(d, x.into()),
impl std::fmt::Display for Ast {
fn fmt (&self, out: &mut Formatter) -> Result<(), std::fmt::Error> {
use Ast::*;
write!(out, "{}", match self {
Nil => String::new(),
Err(e) => format!("[error: {e}]"),
Num(n) => format!("{n}"),
Sym(s) => format!("{s}"),
Key(s) => format!("{s}"),
Str(s) => format!("{s}"),
Exp(e) => format!("{e:?}"),
})
}
}
impl DslValue for Ast {
type Str = Arc<str>;
type Exp = AstIter;
fn value (&self) -> &Value<Arc<str>, AstIter> {
self.0.value()
impl<'source: 'static> From<CstValue<'source>> for Ast {
fn from (other: CstValue<'source>) -> Self {
use CstValue::*;
match other {
Nil => Self::Nil,
Err(e) => Self::Err(e),
Num(u) => Self::Num(u),
Sym(s) => Self::Sym(s.into()),
Key(s) => Self::Key(s.into()),
Str(s) => Self::Str(s.into()),
Exp(_, s) => Self::Exp(Arc::new(s.into())),
}
}
}
impl DslToken for Ast {
type Value = Self;
type Meta = ();
fn value (&self) -> &Self::Value {
self
}
fn meta (&self) -> &Self::Meta {
&()
impl<'source: 'static> Into<Box<dyn AstIter>> for Cst<'source> {
fn into (self) -> Box<dyn AstIter> {
Box::new(self)
}
}

298
dsl/src/dsl_cst.rs
View file

@ -1,117 +1,110 @@
use crate::*;
/// CST stores strings as source references and expressions as new [SourceIter] instances.
pub type CstValue<'source> = Value<&'source str, SourceIter<'source>>;
/// Provides a native [Iterator] API over [CstConstIter],
/// emitting [CstToken] items.
///
/// [Cst::next] returns just the [CstToken] and mutates `self`,
/// instead of returning an updated version of the struct as [CstConstIter::next] does.
#[derive(Copy, Clone, Debug, Default, PartialEq)]
pub struct Cst<'a>(pub CstConstIter<'a>);
/// Reference to the source slice.
#[derive(Debug, Copy, Clone, Default, PartialEq)] pub struct CstMeta<'source> {
/// Owns a reference to the source text.
/// [CstConstIter::next] emits subsequent pairs of:
/// * a [CstToken] and
/// * the source text remaining
/// * [ ] TODO: maybe [CstConstIter::next] should wrap the remaining source in `Self` ?
#[derive(Copy, Clone, Debug, Default, PartialEq)]
pub struct CstConstIter<'a>(pub &'a str);
/// A CST token, with reference to the source slice.
#[derive(Debug, Copy, Clone, Default, PartialEq)] pub struct CstToken<'source> {
pub source: &'source str,
pub start: usize,
pub length: usize,
pub value: CstValue<'source>,
}
/// Token sharing memory with source reference.
#[derive(Debug, Copy, Clone, Default, PartialEq)]
pub struct CstToken<'source>(pub CstValue<'source>, pub CstMeta<'source>);
/// The meaning of a CST token. Strip the source from this to get an [AstValue].
#[derive(Debug, Copy, Clone, Default, PartialEq)] pub enum CstValue<'source> {
#[default] Nil,
Err(DslError),
Num(usize),
Sym(&'source str),
Key(&'source str),
Str(&'source str),
Exp(usize, Cst<'source>),
}
impl<'source> CstToken<'source> {
pub const fn new (
source: &'source str, start: usize, length: usize, value: CstValue<'source>
) -> Self {
Self(value, CstMeta { source, start, length })
impl<'a> Cst<'a> {
pub const fn new (source: &'a str) -> Self {
Self(CstConstIter::new(source))
}
pub const fn end (&self) -> usize {
self.1.start.saturating_add(self.1.length)
}
pub const fn slice (&'source self) -> &'source str {
self.slice_source(self.1.source)
}
pub const fn slice_source <'range> (&'source self, source: &'range str) -> &'range str {
str_range(source, self.1.start, self.end())
}
pub const fn slice_source_exp <'range> (&'source self, source: &'range str) -> &'range str {
str_range(source, self.1.start.saturating_add(1), self.end())
}
pub const fn with_value (self, value: CstValue<'source>) -> Self {
Self(value, self.1)
}
pub const fn value (&self) -> CstValue<'source> {
self.0
}
pub const fn error (self, error: DslError) -> Self {
Self(Value::Err(error), self.1)
}
pub const fn grow (self) -> Self {
Self(self.0, CstMeta { length: self.1.length.saturating_add(1), ..self.1 })
}
pub const fn grow_num (self, m: usize, c: char) -> Self {
use Value::*;
match to_digit(c) {
Result::Ok(n) => Self(Num(10*m+n), self.grow().1),
Result::Err(e) => Self(Err(e), self.grow().1),
pub const fn peek (&self) -> Option<CstToken<'a>> {
self.0.peek()
}
}
pub const fn grow_key (self) -> Self {
use Value::*;
let token = self.grow();
token.with_value(Key(token.slice_source(self.1.source)))
}
pub const fn grow_sym (self) -> Self {
use Value::*;
let token = self.grow();
token.with_value(Sym(token.slice_source(self.1.source)))
}
pub const fn grow_str (self) -> Self {
use Value::*;
let token = self.grow();
token.with_value(Str(token.slice_source(self.1.source)))
}
pub const fn grow_exp (self) -> Self {
use Value::*;
let token = self.grow();
if let Exp(depth, _) = token.value() {
token.with_value(Exp(depth, SourceIter::new(token.slice_source_exp(self.1.source))))
} else {
unreachable!()
impl<'a> Iterator for Cst<'a> {
type Item = CstToken<'a>;
fn next (&mut self) -> Option<CstToken<'a>> {
self.0.next().map(|(item, rest)|{self.0 = rest; item})
}
}
pub const fn grow_in (self) -> Self {
let token = self.grow_exp();
if let Value::Exp(depth, source) = token.value() {
token.with_value(Value::Exp(depth.saturating_add(1), source))
} else {
unreachable!()
impl<'a> From<&'a str> for Cst<'a> {
fn from (source: &'a str) -> Self{
Self(CstConstIter(source))
}
}
pub const fn grow_out (self) -> Self {
let token = self.grow_exp();
if let Value::Exp(depth, source) = token.value() {
if depth > 0 {
token.with_value(Value::Exp(depth - 1, source))
} else {
return self.error(Unexpected(')'))
impl<'a> From<CstConstIter<'a>> for Cst<'a> {
fn from (source: CstConstIter<'a>) -> Self{
Self(source)
}
} else {
unreachable!()
}
/// Implement the const iterator pattern.
#[macro_export] macro_rules! const_iter {
($(<$l:lifetime>)?|$self:ident: $Struct:ty| => $Item:ty => $expr:expr) => {
impl$(<$l>)? Iterator for $Struct {
type Item = $Item;
fn next (&mut $self) -> Option<$Item> { $expr }
}
impl$(<$l>)? ConstIntoIter for $Struct {
type Kind = IsIteratorKind;
type Item = $Item;
type IntoIter = Self;
}
}
}
pub const fn to_number (digits: &str) -> DslResult<usize> {
let mut value = 0;
iterate!(char_indices(digits) => (_, c) => match to_digit(c) {
Ok(digit) => value = 10 * value + digit,
Result::Err(e) => return Result::Err(e)
});
Ok(value)
const_iter!(<'a>|self: CstConstIter<'a>| => CstToken<'a> => self.next_mut().map(|(result, _)|result));
impl<'a> From<&'a str> for CstConstIter<'a> {
fn from (source: &'a str) -> Self{
Self::new(source)
}
}
pub const fn to_digit (c: char) -> DslResult<usize> {
Ok(match c {
'0' => 0, '1' => 1, '2' => 2, '3' => 3, '4' => 4,
'5' => 5, '6' => 6, '7' => 7, '8' => 8, '9' => 9,
_ => return Result::Err(Unexpected(c))
})
impl<'a> CstConstIter<'a> {
pub const fn new (source: &'a str) -> Self {
Self(source)
}
pub const fn chomp (&self, index: usize) -> Self {
Self(split_at(self.0, index).1)
}
pub const fn next (mut self) -> Option<(CstToken<'a>, Self)> {
Self::next_mut(&mut self)
}
pub const fn peek (&self) -> Option<CstToken<'a>> {
peek_src(self.0)
}
pub const fn next_mut (&mut self) -> Option<(CstToken<'a>, Self)> {
match self.peek() {
Some(token) => Some((token, self.chomp(token.end()))),
None => None
}
}
}
/// Static iteration helper.
@ -126,7 +119,7 @@ pub const fn to_digit (c: char) -> DslResult<usize> {
}
pub const fn peek_src <'a> (source: &'a str) -> Option<CstToken<'a>> {
use Value::*;
use CstValue::*;
let mut token: CstToken<'a> = CstToken::new(source, 0, 0, Nil);
iterate!(char_indices(source) => (start, c) => token = match token.value() {
Err(_) => return Some(token),
@ -134,7 +127,7 @@ pub const fn peek_src <'a> (source: &'a str) -> Option<CstToken<'a>> {
' '|'\n'|'\r'|'\t' =>
token.grow(),
'(' =>
CstToken::new(source, start, 1, Exp(1, SourceIter::new(str_range(source, start, start + 1)))),
CstToken::new(source, start, 1, Exp(1, Cst::new(str_range(source, start, start + 1)))),
'"' =>
CstToken::new(source, start, 1, Str(str_range(source, start, start + 1))),
':'|'@' =>
@ -143,8 +136,8 @@ pub const fn peek_src <'a> (source: &'a str) -> Option<CstToken<'a>> {
CstToken::new(source, start, 1, Key(str_range(source, start, start + 1))),
'0'..='9' =>
CstToken::new(source, start, 1, match to_digit(c) {
Ok(c) => Value::Num(c),
Result::Err(e) => Value::Err(e)
Ok(c) => CstValue::Num(c),
Result::Err(e) => CstValue::Err(e)
}),
_ => token.error(Unexpected(c))
},
@ -181,3 +174,118 @@ pub const fn peek_src <'a> (source: &'a str) -> Option<CstToken<'a>> {
_ => Some(token),
}
}
pub const fn to_number (digits: &str) -> DslResult<usize> {
let mut value = 0;
iterate!(char_indices(digits) => (_, c) => match to_digit(c) {
Ok(digit) => value = 10 * value + digit,
Result::Err(e) => return Result::Err(e)
});
Ok(value)
}
pub const fn to_digit (c: char) -> DslResult<usize> {
Ok(match c {
'0' => 0, '1' => 1, '2' => 2, '3' => 3, '4' => 4,
'5' => 5, '6' => 6, '7' => 7, '8' => 8, '9' => 9,
_ => return Result::Err(Unexpected(c))
})
}
impl<'source> CstToken<'source> {
pub const fn new (
source: &'source str, start: usize, length: usize, value: CstValue<'source>
) -> Self {
Self { source, start, length, value }
}
pub const fn end (&self) -> usize {
self.start.saturating_add(self.length)
}
pub const fn slice (&'source self) -> &'source str {
self.slice_source(self.source)
}
pub const fn slice_source <'range> (&'source self, source: &'range str) -> &'range str {
str_range(source, self.start, self.end())
}
pub const fn slice_source_exp <'range> (&'source self, source: &'range str) -> &'range str {
str_range(source, self.start.saturating_add(1), self.end())
}
pub const fn with_value (self, value: CstValue<'source>) -> Self {
Self { value, ..self }
}
pub const fn value (&self) -> CstValue {
self.value
}
pub const fn error (self, error: DslError) -> Self {
Self { value: CstValue::Err(error), ..self }
}
pub const fn grow (self) -> Self {
Self { length: self.length.saturating_add(1), ..self }
}
pub const fn grow_num (self, m: usize, c: char) -> Self {
use CstValue::*;
match to_digit(c) {
Ok(n) => Self { value: Num(10*m+n), ..self.grow() },
Result::Err(e) => Self { value: Err(e), ..self.grow() },
}
}
pub const fn grow_key (self) -> Self {
use CstValue::*;
let token = self.grow();
token.with_value(Key(token.slice_source(self.source)))
}
pub const fn grow_sym (self) -> Self {
use CstValue::*;
let token = self.grow();
token.with_value(Sym(token.slice_source(self.source)))
}
pub const fn grow_str (self) -> Self {
use CstValue::*;
let token = self.grow();
token.with_value(Str(token.slice_source(self.source)))
}
pub const fn grow_exp (self) -> Self {
use CstValue::*;
let token = self.grow();
if let Exp(depth, _) = token.value {
token.with_value(Exp(depth, Cst::new(token.slice_source_exp(self.source))))
} else {
unreachable!()
}
}
pub const fn grow_in (self) -> Self {
let token = self.grow_exp();
if let CstValue::Exp(depth, source) = token.value {
token.with_value(CstValue::Exp(depth.saturating_add(1), source))
} else {
unreachable!()
}
}
pub const fn grow_out (self) -> Self {
let token = self.grow_exp();
if let CstValue::Exp(depth, source) = token.value {
if depth > 0 {
token.with_value(CstValue::Exp(depth - 1, source))
} else {
return self.error(Unexpected(')'))
}
} else {
unreachable!()
}
}
}
impl<'source> std::fmt::Display for CstValue<'source> {
fn fmt (&self, out: &mut std::fmt::Formatter) -> Result<(), std::fmt::Error> {
use CstValue::*;
write!(out, "{}", match self {
Nil => String::new(),
Err(e) => format!("[error: {e}]"),
Num(n) => format!("{n}"),
Sym(s) => format!("{s}"),
Key(s) => format!("{s}"),
Str(s) => format!("{s}"),
Exp(_, e) => format!("{e:?}"),
})
}
}

30
dsl/src/dsl_display.rs
View file

@ -1,30 +0,0 @@
use crate::*;
use std::fmt::{Debug, Display, Formatter, Error as FormatError};
impl Display for Ast {
fn fmt (&self, out: &mut Formatter) -> Result<(), FormatError> {
use Value::*;
write!(out, "{}", match &self.0 {
Nil => String::new(),
Err(e) => format!("[error: {e}]"),
Num(n) => format!("{n}"),
Sym(s) => format!("{s}"),
Key(s) => format!("{s}"),
Str(s) => format!("{s}"),
Exp(_, e) => format!("{e:?}"),
})
}
}
impl<'source> Display for CstValue<'source> {
fn fmt (&self, out: &mut Formatter) -> Result<(), FormatError> {
use Value::*;
write!(out, "{}", match self {
Nil => String::new(),
Err(e) => format!("[error: {e}]"),
Num(n) => format!("{n}"),
Sym(s) => format!("{s}"),
Key(s) => format!("{s}"),
Str(s) => format!("{s}"),
Exp(_, e) => format!("{e:?}"),
})
}
}

22
dsl/src/dsl_domain.rs
View file

@ -13,25 +13,13 @@ pub trait Eval<Input, Output> {
}
}
//impl<S: Eval<I, O>, I, O> Eval<I, O> for &S {
//fn try_eval (&self, input: I) -> Perhaps<O> {
//(*self).try_eval(input)
//}
//}
//impl<S: Eval<I, O>, I: Ast, O: Dsl<S>> Eval<I, O> for S {
//fn try_eval (&self, input: I) -> Perhaps<O> {
//Dsl::try_provide(self, input)
//}
//}
/// May construct [Self] from token stream.
pub trait Dsl<State>: Sized {
fn try_provide (state: &State, source: Ast) -> Perhaps<Self>;
fn try_provide (state: State, source: Ast) -> Perhaps<Self>;
fn provide <E: Into<Box<dyn std::error::Error>>, F: Fn()->E> (
state: &State, source: Ast, error: F
state: State, source: Ast, error: F
) -> Usually<Self> {
let next = format!("{source:?}");
let next = source.clone();
if let Some(value) = Self::try_provide(state, source)? {
Ok(value)
} else {
@ -40,6 +28,10 @@ pub trait Dsl<State>: Sized {
}
}
impl<T: Dsl<S>, S> Eval<Ast, T> for S {
fn try_eval (&self, input: Ast) -> Perhaps<T> { todo!() }
}
//pub trait Give<'state, 'source, Type> {
///// Implement this to be able to [Give] [Type] from the [Cst].
///// Advance the stream if returning `Ok<Some<Type>>`.

130
dsl/src/dsl_iter.rs
View file

@ -1,130 +0,0 @@
use crate::*;
pub trait DslIter {
type Token: DslToken;
fn peek (&self) -> Option<<Self::Token as DslToken>::Value>;
fn next (&mut self) -> Option<<Self::Token as DslToken>::Value>;
fn rest (self) -> Vec<Self::Token>;
}
#[derive(Debug, Clone, Default, PartialEq)]
pub struct AstIter(std::collections::VecDeque<Ast>);
impl DslIter for AstIter {
type Token = Ast;
fn peek (&self) -> Option<Ast> {
self.0.get(0).cloned()
}
fn next (&mut self) -> Option<Ast> {
self.0.pop_front()
}
fn rest (self) -> Vec<Ast> {
self.0.into()
}
}
impl<'source> From<SourceIter<'source>> for AstIter {
fn from (source: SourceIter<'source>) -> Self {
Self(source.map(Into::into).collect())
}
}
/// Provides a native [Iterator] API over [SourceConstIter],
/// emitting [CstToken] items.
///
/// [Cst::next] returns just the [CstToken] and mutates `self`,
/// instead of returning an updated version of the struct as [SourceConstIter::next] does.
#[derive(Copy, Clone, Debug, Default, PartialEq)]
pub struct SourceIter<'source>(pub SourceConstIter<'source>);
impl<'source> SourceIter<'source> {
pub const fn new (source: &'source str) -> Self {
Self(SourceConstIter::new(source))
}
pub const fn peek (&self) -> Option<CstToken<'source>> {
self.0.peek()
}
}
impl<'source> Iterator for SourceIter<'source> {
type Item = CstToken<'source>;
fn next (&mut self) -> Option<CstToken<'source>> {
self.0.next().map(|(item, rest)|{self.0 = rest; item})
}
}
impl<'source> From<&'source str> for SourceIter<'source> {
fn from (source: &'source str) -> Self{
Self(SourceConstIter(source))
}
}
impl<'source> Into<Vec<CstToken<'source>>> for SourceIter<'source> {
fn into (self) -> Vec<CstToken<'source>> {
self.collect()
}
}
impl<'source> Into<Vec<Ast>> for SourceIter<'source> {
fn into (self) -> Vec<Ast> {
self.map(Into::into).collect()
}
}
/// Implement the const iterator pattern.
#[macro_export] macro_rules! const_iter {
($(<$l:lifetime>)?|$self:ident: $Struct:ty| => $Item:ty => $expr:expr) => {
impl$(<$l>)? Iterator for $Struct {
type Item = $Item;
fn next (&mut $self) -> Option<$Item> { $expr }
}
impl$(<$l>)? ConstIntoIter for $Struct {
type Kind = IsIteratorKind;
type Item = $Item;
type IntoIter = Self;
}
}
}
/// Owns a reference to the source text.
/// [SourceConstIter::next] emits subsequent pairs of:
/// * a [CstToken] and
/// * the source text remaining
/// * [ ] TODO: maybe [SourceConstIter::next] should wrap the remaining source in `Self` ?
#[derive(Copy, Clone, Debug, Default, PartialEq)]
pub struct SourceConstIter<'source>(pub &'source str);
impl<'source> From<SourceConstIter<'source>> for SourceIter<'source> {
fn from (source: SourceConstIter<'source>) -> Self{
Self(source)
}
}
impl<'source> From<&'source str> for SourceConstIter<'source> {
fn from (source: &'source str) -> Self{
Self::new(source)
}
}
impl<'source> SourceConstIter<'source> {
pub const fn new (source: &'source str) -> Self {
Self(source)
}
pub const fn chomp (&self, index: usize) -> Self {
Self(split_at(self.0, index).1)
}
pub const fn next (mut self) -> Option<(CstToken<'source>, Self)> {
Self::next_mut(&mut self)
}
pub const fn peek (&self) -> Option<CstToken<'source>> {
peek_src(self.0)
}
pub const fn next_mut (&mut self) -> Option<(CstToken<'source>, Self)> {
match self.peek() {
Some(token) => Some((token, self.chomp(token.end()))),
None => None
}
}
}
const_iter!(<'source>|self: SourceConstIter<'source>| => CstToken<'source> => self.next_mut().map(|(result, _)|result));

124
dsl/src/dsl_test.rs
View file

@ -1,124 +0,0 @@
#[cfg(test)] mod test_token_iter {
use crate::*;
//use proptest::prelude::*;
#[test] fn test_iters () {
let mut iter = crate::SourceIter::new(&":foo :bar");
let _ = iter.next();
let mut iter = crate::TokenIter::new(&":foo :bar");
let _ = iter.next();
}
#[test] const fn test_const_iters () {
let mut iter = crate::SourceIter::new(&":foo :bar");
let _ = iter.next();
}
#[test] fn test_num () {
let digit = to_digit('0');
let digit = to_digit('x');
let number = to_number(&"123");
let number = to_number(&"12asdf3");
}
//proptest! {
//#[test] fn proptest_source_iter (
//source in "\\PC*"
//) {
//let mut iter = crate::SourceIter::new(&source);
////let _ = iter.next();
//}
//#[test] fn proptest_token_iter (
//source in "\\PC*"
//) {
//let mut iter = crate::TokenIter::new(&source);
////let _ = iter.next();
//}
//}
}
#[cfg(test)] mod test_token_prop {
use proptest::prelude::*;
proptest! {
#[test] fn test_token_prop (
source in "\\PC*",
start in usize::MIN..usize::MAX,
length in usize::MIN..usize::MAX,
) {
let token = crate::Token {
source: &source,
start,
length,
value: crate::Value::Nil
};
let _ = token.slice();
}
}
}
#[cfg(test)] #[test] fn test_token () -> Result<(), Box<dyn std::error::Error>> {
let source = ":f00";
let mut token = Token { source, start: 0, length: 1, value: Sym(":") };
token = token.grow_sym();
assert_eq!(token, Token { source, start: 0, length: 2, value: Sym(":f") });
token = token.grow_sym();
assert_eq!(token, Token { source, start: 0, length: 3, value: Sym(":f0") });
token = token.grow_sym();
assert_eq!(token, Token { source, start: 0, length: 4, value: Sym(":f00") });
let src = "";
assert_eq!(None, SourceIter(src).next());
let src = " \n \r \t ";
assert_eq!(None, SourceIter(src).next());
let src = "7";
assert_eq!(Num(7), SourceIter(src).next().unwrap().0.value);
let src = " 100 ";
assert_eq!(Num(100), SourceIter(src).next().unwrap().0.value);
let src = " 9a ";
assert_eq!(Err(Unexpected('a')), SourceIter(src).next().unwrap().0.value);
let src = " :123foo ";
assert_eq!(Sym(":123foo"), SourceIter(src).next().unwrap().0.value);
let src = " \r\r\r\n\n\n@bar456\t\t\t\t\t\t";
assert_eq!(Sym("@bar456"), SourceIter(src).next().unwrap().0.value);
let src = "foo123";
assert_eq!(Key("foo123"), SourceIter(src).next().unwrap().0.value);
let src = "foo/bar";
assert_eq!(Key("foo/bar"), SourceIter(src).next().unwrap().0.value);
let src = "\"foo/bar\"";
assert_eq!(Str("foo/bar"), SourceIter(src).next().unwrap().0.value);
let src = " \"foo/bar\" ";
assert_eq!(Str("foo/bar"), SourceIter(src).next().unwrap().0.value);
Ok(())
}
//#[cfg(test)] #[test] fn test_examples () -> Result<(), DslError> {
//// Let's pretend to render some view.
//let source = include_str!("../../tek/src/view_arranger.edn");
//// The token iterator allows you to get the tokens represented by the source text.
//let mut view = TokenIter(source);
//// The token iterator wraps a const token+source iterator.
//assert_eq!(view.0.0, source);
//let mut expr = view.peek();
//assert_eq!(view.0.0, source);
//assert_eq!(expr, Some(Token {
//source, start: 0, length: source.len() - 1, value: Exp(0, SourceIter(&source[1..]))
//}));
////panic!("{view:?}");
////panic!("{:#?}", expr);
////for example in [
////include_str!("../../tui/examples/edn01.edn"),
////include_str!("../../tui/examples/edn02.edn"),
////] {
//////let items = Dsl::read_all(example)?;
//////panic!("{layout:?}");
//////let content = <dyn ViewContext<::tengri_engine::tui::Tui>>::from(&layout);
////}
//Ok(())
//}

25
dsl/src/dsl_token.rs
View file

@ -1,25 +0,0 @@
use crate::*;
#[derive(PartialEq, Clone, Default, Debug)]
pub struct Token<
V: PartialEq + Clone + Default + Debug,
M: PartialEq + Clone + Default + Debug,
>(pub V, pub M);
pub trait DslToken: PartialEq + Clone + Default + Debug {
type Value: DslValue;
type Meta: Clone + Default + Debug;
fn value (&self) -> &Self::Value;
fn meta (&self) -> &Self::Meta;
}
impl<V: DslValue, M: PartialEq + Clone + Default + Debug> DslToken for Token<V, M> {
type Value = V;
type Meta = M;
fn value (&self) -> &Self::Value {
&self.0
}
fn meta (&self) -> &Self::Meta {
&self.1
}
}

84
dsl/src/dsl_value.rs
View file

@ -1,84 +0,0 @@
use crate::*;
use std::fmt::Display;
pub trait DslValue: PartialEq + Clone + Default + Debug {
type Str: AsRef<str> + PartialEq + Clone + Default + Debug;
type Exp: PartialEq + Clone + Default + Debug;
fn value (&self) -> &Value<Self::Str, Self::Exp>;
fn nil (&self) -> bool {
matches!(self.value(), Value::Nil)
}
fn err (&self) -> Option<&DslError> {
if let Value::Err(e) = self.value() { Some(e) } else { None }
}
fn num (&self) -> Option<usize> {
if let Value::Num(n) = self.value() { Some(*n) } else { None }
}
fn sym (&self) -> Option<&str> {
if let Value::Sym(s) = self.value() { Some(s.as_ref()) } else { None }
}
fn key (&self) -> Option<&str> {
if let Value::Key(k) = self.value() { Some(k.as_ref()) } else { None }
}
fn str (&self) -> Option<&str> {
if let Value::Str(s) = self.value() { Some(s.as_ref()) } else { None }
}
fn exp (&self) -> Option<&Self::Exp> {
if let Value::Exp(_, x) = self.value() { Some(x) } else { None }
}
fn exp_depth (&self) -> Option<usize> { None } // TODO
fn exp_head (&self) -> Option<&Self> { None } // TODO
fn exp_tail (&self) -> Option<&[Self]> { None } // TODO
}
impl<
Str: AsRef<str> + PartialEq + Clone + Default + Debug,
Exp: PartialEq + Clone + Default + Debug,
> DslValue for Value<Str, Exp> {
type Str = Str;
type Exp = Exp;
fn value (&self) -> &Value<Str, Exp> {
self
}
}
pub enum Value<S, X> { Nil, Err(DslError), Num(usize), Sym(S), Key(S), Str(S), Exp(usize, X), }
impl<S, X> Default for Value<S, X> { fn default () -> Self { Self:: Nil } }
impl<S: PartialEq, X: PartialEq,> PartialEq for Value<S, X> {
fn eq (&self, other: &Self) -> bool {
use Value::*;
match (self, other) {
(Nil, Nil) => true,
(Err(e1), Err(e2)) if e1 == e2 => true,
(Num(n1), Num(n2)) if n1 == n2 => true,
(Sym(s1), Sym(s2)) if s1 == s2 => true,
(Key(s1), Key(s2)) if s1 == s2 => true,
(Str(s1), Str(s2)) if s1 == s2 => true,
(Exp(d1, e1), Exp(d2, e2)) if d1 == d2 && e1 == e2 => true,
_ => false
}
}
}
impl<S: Clone, X: Clone,> Clone for Value<S, X> {
fn clone (&self) -> Self {
use Value::*;
match self {
Nil => Nil,
Err(e) => Err(e.clone()),
Num(n) => Num(*n),
Sym(s) => Sym(s.clone()),
Key(s) => Key(s.clone()),
Str(s) => Str(s.clone()),
Exp(d, e) => Exp(*d, e.clone()),
}
}
}
impl<S: Copy, X: Copy,> Copy for Value<S, X> {}
impl<S: Debug, X: Debug,> Debug for Value<S, X> {
fn fmt (&self, f: &mut std::fmt::Formatter) -> Result<(), std::fmt::Error> {
todo!()
}
}
impl<S: Display, X: Display,> Display for Value<S, X> {
fn fmt (&self, f: &mut std::fmt::Formatter) -> Result<(), std::fmt::Error> {
todo!()
}
}

140
dsl/src/lib.rs
View file

@ -1,3 +1,7 @@
#![feature(adt_const_params)]
#![feature(type_alias_impl_trait)]
#![feature(impl_trait_in_fn_trait_return)]
//! [Token]s are parsed substrings with an associated [Value].
//!
//! * [ ] FIXME: Value may be [Err] which may shadow [Result::Err]
@ -31,21 +35,141 @@
//! assert_eq!(view.0.0, src);
//! assert_eq!(view.peek(), view.0.peek())
//! ```
#![feature(adt_const_params)]
#![feature(type_alias_impl_trait)]
#![feature(impl_trait_in_fn_trait_return)]
pub(crate) use ::tengri_core::*;
pub(crate) use std::fmt::Debug;
pub(crate) use konst::iter::{ConstIntoIter, IsIteratorKind};
pub(crate) use konst::string::{split_at, str_range, char_indices};
pub(crate) use thiserror::Error;
pub(crate) use self::DslError::*;
mod dsl_ast; pub use self::dsl_ast::*;
mod dsl_cst; pub use self::dsl_cst::*;
mod dsl_display; pub use self::dsl_display::*;
mod dsl_domain; pub use self::dsl_domain::*;
mod dsl_error; pub use self::dsl_error::*;
mod dsl_iter; pub use self::dsl_iter::*;
mod dsl_token; pub use self::dsl_token::*;
mod dsl_value; pub use self::dsl_value::*;
#[cfg(test)] mod dsl_test;
#[cfg(test)] mod test_token_iter {
use crate::*;
//use proptest::prelude::*;
#[test] fn test_iters () {
let mut iter = crate::SourceIter::new(&":foo :bar");
let _ = iter.next();
let mut iter = crate::TokenIter::new(&":foo :bar");
let _ = iter.next();
}
#[test] const fn test_const_iters () {
let mut iter = crate::SourceIter::new(&":foo :bar");
let _ = iter.next();
}
#[test] fn test_num () {
let digit = to_digit('0');
let digit = to_digit('x');
let number = to_number(&"123");
let number = to_number(&"12asdf3");
}
//proptest! {
//#[test] fn proptest_source_iter (
//source in "\\PC*"
//) {
//let mut iter = crate::SourceIter::new(&source);
////let _ = iter.next();
//}
//#[test] fn proptest_token_iter (
//source in "\\PC*"
//) {
//let mut iter = crate::TokenIter::new(&source);
////let _ = iter.next();
//}
//}
}
#[cfg(test)] mod test_token_prop {
use proptest::prelude::*;
proptest! {
#[test] fn test_token_prop (
source in "\\PC*",
start in usize::MIN..usize::MAX,
length in usize::MIN..usize::MAX,
) {
let token = crate::Token {
source: &source,
start,
length,
value: crate::Value::Nil
};
let _ = token.slice();
}
}
}
#[cfg(test)] #[test] fn test_token () -> Result<(), Box<dyn std::error::Error>> {
let source = ":f00";
let mut token = Token { source, start: 0, length: 1, value: Sym(":") };
token = token.grow_sym();
assert_eq!(token, Token { source, start: 0, length: 2, value: Sym(":f") });
token = token.grow_sym();
assert_eq!(token, Token { source, start: 0, length: 3, value: Sym(":f0") });
token = token.grow_sym();
assert_eq!(token, Token { source, start: 0, length: 4, value: Sym(":f00") });
let src = "";
assert_eq!(None, SourceIter(src).next());
let src = " \n \r \t ";
assert_eq!(None, SourceIter(src).next());
let src = "7";
assert_eq!(Num(7), SourceIter(src).next().unwrap().0.value);
let src = " 100 ";
assert_eq!(Num(100), SourceIter(src).next().unwrap().0.value);
let src = " 9a ";
assert_eq!(Err(Unexpected('a')), SourceIter(src).next().unwrap().0.value);
let src = " :123foo ";
assert_eq!(Sym(":123foo"), SourceIter(src).next().unwrap().0.value);
let src = " \r\r\r\n\n\n@bar456\t\t\t\t\t\t";
assert_eq!(Sym("@bar456"), SourceIter(src).next().unwrap().0.value);
let src = "foo123";
assert_eq!(Key("foo123"), SourceIter(src).next().unwrap().0.value);
let src = "foo/bar";
assert_eq!(Key("foo/bar"), SourceIter(src).next().unwrap().0.value);
let src = "\"foo/bar\"";
assert_eq!(Str("foo/bar"), SourceIter(src).next().unwrap().0.value);
let src = " \"foo/bar\" ";
assert_eq!(Str("foo/bar"), SourceIter(src).next().unwrap().0.value);
Ok(())
}
//#[cfg(test)] #[test] fn test_examples () -> Result<(), DslError> {
//// Let's pretend to render some view.
//let source = include_str!("../../tek/src/view_arranger.edn");
//// The token iterator allows you to get the tokens represented by the source text.
//let mut view = TokenIter(source);
//// The token iterator wraps a const token+source iterator.
//assert_eq!(view.0.0, source);
//let mut expr = view.peek();
//assert_eq!(view.0.0, source);
//assert_eq!(expr, Some(Token {
//source, start: 0, length: source.len() - 1, value: Exp(0, SourceIter(&source[1..]))
//}));
////panic!("{view:?}");
////panic!("{:#?}", expr);
////for example in [
////include_str!("../../tui/examples/edn01.edn"),
////include_str!("../../tui/examples/edn02.edn"),
////] {
//////let items = Dsl::read_all(example)?;
//////panic!("{layout:?}");
//////let content = <dyn ViewContext<::tengri_engine::tui::Tui>>::from(&layout);
////}
//Ok(())
//}

44
input/src/input_dsl.rs
View file

@ -1,12 +1,14 @@
use crate::*;
use std::marker::PhantomData;
use std::fmt::Debug;
#[derive(Default, Debug)] pub struct InputLayers(Vec<InputLayer>);
#[derive(Default, Debug)] pub struct InputLayer(Option<Ast>, Ast);
impl InputLayers {
/// List of input layers with optional conditional filters.
#[derive(Default, Debug)] pub struct InputLayers<S>(Vec<InputLayer<S>>);
#[derive(Default, Debug)] pub struct InputLayer<S>{
__: PhantomData<S>,
condition: Option<Ast>,
binding: Ast,
}
impl<S> InputLayers<S> {
pub fn new (layer: Ast) -> Self {
Self(vec![]).layer(layer)
}
@ -20,31 +22,31 @@ impl InputLayers {
self.add_layer_if(None, layer.into()); self
}
pub fn add_layer_if (&mut self, condition: Option<Ast>, binding: Ast) -> &mut Self {
self.0.push(InputLayer(condition, binding));
self.0.push(InputLayer { condition, binding, __: Default::default() });
self
}
pub fn handle <S: Eval<Ast, bool> + Eval<Ast, O>, I: Eval<Ast, bool>, O: Command<S>> (&self, state: &mut S, input: I) -> Perhaps<O> {
InputHandle(state, self.0.as_slice()).try_eval(input)
}
}
pub struct InputHandle<'a, S>(&'a mut S, &'a [InputLayer]);
impl<'a, S: Eval<Ast, bool> + Eval<Ast, O>, I: Eval<Ast, bool>, O: Command<S>> Eval<I, O> for InputHandle<'a, S> {
fn try_eval (&self, input: I) -> Perhaps<O> {
let Self(state, layers) = self;
for InputLayer(condition, binding) in layers.iter() {
impl<S: Eval<Ast, bool> + Eval<Ast, C>, C: Command<S>, I: Debug + Eval<Ast, bool>> Eval<(S, I), C> for InputLayers<S> {
fn try_eval (&self, (state, input): (S, I)) -> Perhaps<C> {
for InputLayer { condition, binding, .. } in self.0.iter() {
let mut matches = true;
if let Some(condition) = condition {
matches = state.eval(condition.clone(), ||"input: no condition")?;
}
if matches
&& let Some(exp) = binding.exp()
&& let Some(ast) = exp.peek()
&& input.eval(ast.clone(), ||"InputLayers: input.eval(binding) failed")?
if matches {
if let Ast::Exp(e) = binding {
if let Some(ast) = e.peek() {
if input.eval(ast.clone(), ||"InputLayers: input.eval(binding) failed")?
&& let Some(command) = state.try_eval(ast)? {
return Ok(Some(command))
}
} else {
unreachable!("InputLayer")
}
} else {
panic!("InputLayer: expected expression, got: {input:?}")
}
}
}
Ok(None)
}

1
input/src/lib.rs
View file

@ -1,5 +1,4 @@
#![feature(associated_type_defaults)]
#![feature(if_let_guard)]
pub(crate) use tengri_core::*;

187
output/src/ops_dsl.rs
View file

@ -1,118 +1,159 @@
use crate::*;
use Value::*;
impl<S, A> Dsl<S> for When<A> where S: Eval<Ast, bool> + Eval<Ast, A> {
fn try_provide (state: &S, source: Ast) -> Perhaps<Self> {
if let Exp(_, exp) = source.0 && let Some(Ast(Key(id))) = exp.peek() && *id == *"when" {
let _ = exp.next();
fn try_provide (state: S, source: Ast) -> Perhaps<Self> {
if let Ast::Exp(source) = source {
if let Some(Ast::Key(id)) = source.next() && *id == *"when" {
return Ok(Some(Self(
state.eval(exp.next().unwrap(), ||"when: expected condition")?,
state.eval(exp.next().unwrap(), ||"when: expected content")?,
state.eval(source.next().unwrap(), ||"when: expected condition")?,
state.eval(source.next().unwrap(), ||"when: expected content")?,
)))
}
}
Ok(None)
}
}
impl<S, A, B> Dsl<S> for Either<A, B> where S: Eval<Ast, bool> + Eval<Ast, A> + Eval<Ast, B> {
fn try_provide (state: &S, source: Ast) -> Perhaps<Self> {
if let Exp(_, exp) = source.0 && let Some(Ast(Key(id))) = exp.peek() && *id == *"either" {
let _ = exp.next();
fn try_provide (state: S, mut source: Ast) -> Perhaps<Self> {
if let Ast::Exp(mut source) = source {
if let Some(Ast::Key(id)) = source.next() && *id == *"either" {
return Ok(Some(Self(
state.eval(exp.next().unwrap(), ||"either: expected condition")?,
state.eval(exp.next().unwrap(), ||"either: expected content 1")?,
state.eval(exp.next().unwrap(), ||"either: expected content 2")?,
state.eval(source.next().unwrap(), ||"either: expected condition")?,
state.eval(source.next().unwrap(), ||"either: expected content 1")?,
state.eval(source.next().unwrap(), ||"either: expected content 2")?,
)))
}
}
Ok(None)
}
}
impl<S, A, B> Dsl<S> for Bsp<A, B>
where S: Eval<Option<Ast>, A> + Eval<Option<Ast>, B> {
fn try_provide (state: S, source: Ast) -> Perhaps<Self> {
Ok(Some(if let Ast::Exp(source) = source {
match source.next() {
Some(Value::Key("bsp/n")) => {
let a: A = state.eval(source.next(), ||"bsp/n: expected content 1")?;
let b: B = state.eval(source.next(), ||"bsp/n: expected content 2")?;
Self::n(a, b)
},
Some(Value::Key("bsp/s")) => {
let a: A = state.eval(source.next(), ||"bsp/s: expected content 1")?;
let b: B = state.eval(source.next(), ||"bsp/s: expected content 2")?;
Self::s(a, b)
},
Some(Value::Key("bsp/e")) => {
let a: A = state.eval(source.next(), ||"bsp/e: expected content 1")?;
let b: B = state.eval(source.next(), ||"bsp/e: expected content 2")?;
Self::e(a, b)
},
Some(Value::Key("bsp/w")) => {
let a: A = state.eval(source.next(), ||"bsp/w: expected content 1")?;
let b: B = state.eval(source.next(), ||"bsp/w: expected content 2")?;
Self::w(a, b)
},
Some(Value::Key("bsp/a")) => {
let a: A = state.eval(source.next(), ||"bsp/a: expected content 1")?;
let b: B = state.eval(source.next(), ||"bsp/a: expected content 2")?;
Self::a(a, b)
},
Some(Value::Key("bsp/b")) => {
let a: A = state.eval(source.next(), ||"bsp/b: expected content 1")?;
let b: B = state.eval(source.next(), ||"bsp/b: expected content 2")?;
Self::b(a, b)
},
_ => return Ok(None),
}
} else {
return Ok(None)
}))
}
}
impl<S, A> Dsl<S> for Align<A> where S: Eval<Option<Ast>, A> {
fn try_provide (state: &S, source: Ast) -> Perhaps<Self> {
if let Exp(_, source) = source.0 {
let mut rest = source.clone();
return Ok(Some(match rest.next().and_then(|x|x.key()) {
Some("align/c") => Self::c(state.eval(rest.next(), ||"align/c: expected content")?),
Some("align/x") => Self::x(state.eval(rest.next(), ||"align/x: expected content")?),
Some("align/y") => Self::y(state.eval(rest.next(), ||"align/y: expected content")?),
Some("align/n") => Self::n(state.eval(rest.next(), ||"align/n: expected content")?),
Some("align/s") => Self::s(state.eval(rest.next(), ||"align/s: expected content")?),
Some("align/e") => Self::e(state.eval(rest.next(), ||"align/e: expected content")?),
Some("align/w") => Self::w(state.eval(rest.next(), ||"align/w: expected content")?),
Some("align/nw") => Self::nw(state.eval(rest.next(), ||"align/nw: expected content")?),
Some("align/ne") => Self::ne(state.eval(rest.next(), ||"align/ne: expected content")?),
Some("align/sw") => Self::sw(state.eval(rest.next(), ||"align/sw: expected content")?),
Some("align/se") => Self::se(state.eval(rest.next(), ||"align/se: expected content")?),
fn try_provide (state: S, source: Ast) -> Perhaps<Self> {
Ok(Some(if let Ast::Exp(source) = source {
match source.next() {
Some(Value::Key("align/c")) => {
let content: A = state.eval(source.next(), ||"align/c: expected content")?;
Self::c(content)
},
Some(Value::Key("align/x")) => {
let content: A = state.eval(source.next(), ||"align/x: expected content")?;
Self::x(content)
},
Some(Value::Key("align/y")) => {
let content: A = state.eval(source.next(), ||"align/y: expected content")?;
Self::y(content)
},
Some(Value::Key("align/n")) => {
let content: A = state.eval(source.next(), ||"align/n: expected content")?;
Self::n(content)
},
Some(Value::Key("align/s")) => {
let content: A = state.eval(source.next(), ||"align/s: expected content")?;
Self::s(content)
},
Some(Value::Key("align/e")) => {
let content: A = state.eval(source.next(), ||"align/e: expected content")?;
Self::e(content)
},
Some(Value::Key("align/w")) => {
let content: A = state.eval(source.next(), ||"align/w: expected content")?;
Self::w(content)
},
Some(Value::Key("align/nw")) => {
let content: A = state.eval(source.next(), ||"align/nw: expected content")?;
Self::nw(content)
},
Some(Value::Key("align/ne")) => {
let content: A = state.eval(source.next(), ||"align/ne: expected content")?;
Self::ne(content)
},
Some(Value::Key("align/sw")) => {
let content: A = state.eval(source.next(), ||"align/sw: expected content")?;
Self::sw(content)
},
Some(Value::Key("align/se")) => {
let content: A = state.eval(source.next(), ||"align/se: expected content")?;
Self::se(content)
},
_ => return Ok(None),
}
} else {
return Ok(None)
}))
}
Ok(None)
}
}
impl<S, A, B> Dsl<S> for Bsp<A, B> where S: Eval<Option<Ast>, A> + Eval<Option<Ast>, B> {
fn try_provide (state: &S, source: Ast) -> Perhaps<Self> {
if let Exp(_, exp) = source.0 {
let mut rest = exp.clone();
return Ok(Some(match rest.next().and_then(|x|x.key()) {
Some("bsp/n") => Self::n(
state.eval(rest.next(), ||"bsp/n: expected content 1")?,
state.eval(rest.next(), ||"bsp/n: expected content 2")?,
),
Some("bsp/s") => Self::s(
state.eval(rest.next(), ||"bsp/s: expected content 1")?,
state.eval(rest.next(), ||"bsp/s: expected content 2")?,
),
Some("bsp/e") => Self::e(
state.eval(rest.next(), ||"bsp/e: expected content 1")?,
state.eval(rest.next(), ||"bsp/e: expected content 2")?,
),
Some("bsp/w") => Self::w(
state.eval(rest.next(), ||"bsp/w: expected content 1")?,
state.eval(rest.next(), ||"bsp/w: expected content 2")?,
),
Some("bsp/a") => Self::a(
state.eval(rest.next(), ||"bsp/a: expected content 1")?,
state.eval(rest.next(), ||"bsp/a: expected content 2")?,
),
Some("bsp/b") => Self::b(
state.eval(rest.next(), ||"bsp/b: expected content 1")?,
state.eval(rest.next(), ||"bsp/b: expected content 2")?,
),
_ => return Ok(None),
}))
}
Ok(None)
}
}
//#[cfg(feature = "dsl")] take!($Enum<A>, A|state, words|Ok(
//if let Some(Token { value: Key(k), .. }) = words.peek() {
//if let Some(Token { value: Value::Key(k), .. }) = words.peek() {
//let mut base = words.clone();
//let content = state.give_or_fail(words, ||format!("{k}: no content"))?;
//return Ok(Some(match words.next() {
//Some(Token{value: Key($x),..}) => Self::x(content),
//Some(Token{value: Key($y),..}) => Self::y(content),
//Some(Token{value: Key($xy),..}) => Self::xy(content),
//Some(Token{value: Value::Key($x),..}) => Self::x(content),
//Some(Token{value: Value::Key($y),..}) => Self::y(content),
//Some(Token{value: 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|$xy), .. }) = words.peek() {
//if let Some(Token { value: Value::Key($x|$y|$xy), .. }) = words.peek() {
//let mut base = words.clone();
//Some(match words.next() {
//Some(Token { value: Key($x), .. }) => Self::x(
//Some(Token { value: Value::Key($x), .. }) => Self::x(
//state.give_or_fail(words, ||"x: no unit")?,
//state.give_or_fail(words, ||"x: no content")?,
//),
//Some(Token { value: Key($y), .. }) => Self::y(
//Some(Token { value: Value::Key($y), .. }) => Self::y(
//state.give_or_fail(words, ||"y: no unit")?,
//state.give_or_fail(words, ||"y: no content")?,
//),
//Some(Token { value: Key($x), .. }) => Self::xy(
//Some(Token { value: Value::Key($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")?