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Author SHA1 Message Date
unspeaker
a601d3d806 so many ood tests
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Details
2025-08-03 01:58:50 +03:00
unspeaker
643658ab16 dsl: fixed expression handling 2025-08-03 01:53:58 +03:00
9 changed files with 468 additions and 369 deletions
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21
dsl/README.md
View file

@ -92,3 +92,24 @@ or configuration statements, and look like this:
* [ ] const parse
* [ ] live reload
* [ ] serialize modified code back to original indentation
## implementation notes
### `DslExp` trait behavior
this is the trait which differentiates "a thing" from
"a thing that is many things".
|source |key|exp |head |tail |
|---------------|---|-------|---------|---------------|
|`a` |`a`|e0 |`a` |None |
|`(a)` |e1 |`a` |`(a)` |None |
|`a b c` |e2 |e0 |`a` |`b c` |
|`(a b c)` |e1 |`a b c`|`(a b c)`| |
|`(a b c) d e` |e1 |e3 |`(a b c)`|`d e` |
|`a (b c d) e f`|e1 |e0 |`a` |`(b c d) e f` |
* e0: Unexpected 'a'
* e1: Unexpected '('
* e2: Unexpected 'b'
* e3: Unexpected 'd'

326
dsl/src/dsl.rs
View file

@ -6,87 +6,45 @@
extern crate const_panic;
use const_panic::PanicFmt;
use std::fmt::Debug;
pub(crate) use std::error::Error;
pub(crate) use std::sync::Arc;
pub(crate) use konst::string::{str_range, char_indices};
pub(crate) use std::{error::Error, sync::Arc};
pub(crate) use konst::{iter::for_each, string::{str_from, str_range, char_indices}};
pub(crate) use thiserror::Error;
pub(crate) use ::tengri_core::*;
pub(crate) use self::DslError::*;
mod dsl_conv; pub use self::dsl_conv::*;
mod dsl_parse;
pub(crate) use self::dsl_parse::*;
pub mod parse { pub use crate::dsl_parse::*; }
#[cfg(test)]
mod dsl_test;
#[cfg(test)] mod dsl_test;
flex_trait!(Dsl: Debug + Send + Sync + Sized {
fn src (&self) -> &str {
unreachable!("Dsl::src default impl")
}
fn src (&self) -> DslPerhaps<&str> { unreachable!("Dsl::src default impl") }
});
impl Dsl for Arc<str> {
fn src (&self) -> &str { self.as_ref() }
}
impl<'s> Dsl for &'s str {
fn src (&self) -> &str { self.as_ref() }
}
impl Dsl for Arc<str> { fn src (&self) -> DslPerhaps<&str> { Ok(Some(self.as_ref())) } }
impl<'s> Dsl for &'s str { fn src (&self) -> DslPerhaps<&str> { Ok(Some(self.as_ref())) } }
impl<D: Dsl> Dsl for Option<D> {
fn src (&self) -> &str { if let Some(dsl) = self { dsl.src() } else { "" } }
fn src (&self) -> DslPerhaps<&str> {Ok(if let Some(dsl) = self { dsl.src()? } else { None })}
}
impl<D: Dsl> DslExp for D {}
pub trait DslExp: Dsl {
fn exp (&self) -> DslPerhaps<&str> {
Ok(exp_peek(self.src())?)
impl<D: Dsl> Dsl for Result<D, DslError> {
fn src (&self) -> DslPerhaps<&str> {match self {Ok(dsl) => Ok(dsl.src()?), Err(e) => Err(*e)}}
}
fn head (&self) -> DslPerhaps<&str> {
let start = 1;
let src = self.src();
let src = &src[start.min(src.len().saturating_sub(1))..];
peek(src)
impl<D: Dsl> DslExp for D {} pub trait DslExp: Dsl {
fn exp (&self) -> DslPerhaps<&str> {ok_flat(self.src()?.map(exp_peek_inner_only))}
fn head (&self) -> DslPerhaps<&str> {ok_flat(self.src()?.map(peek))}
fn tail (&self) -> DslPerhaps<&str> {ok_flat(self.src()?.map(peek_tail(self.head())))}
}
fn tail (&self) -> DslPerhaps<&str> {
let start = 1;
let src = self.src();
let src = &src[start.min(src.len().saturating_sub(1))..];
Ok(if let Some((head_start, head_len)) = seek(src)? {
let start = 1 + head_start + head_len;
let src = self.src();
let src = &src[start.min(src.len().saturating_sub(1))..];
peek(src)?
} else {
None
})
impl<D: Dsl> DslText for D {} pub trait DslText: Dsl {
fn text (&self) -> DslPerhaps<&str> {ok_flat(self.src()?.map(text_peek_only))}
}
impl<D: Dsl> DslSym for D {} pub trait DslSym: Dsl {
fn sym (&self) -> DslPerhaps<&str> {ok_flat(self.src()?.map(sym_peek_only))}
}
impl<D: Dsl> DslSym for D {}
pub trait DslSym: Dsl {
fn sym (&self) -> DslPerhaps<&str> { crate::parse::sym_peek(self.src()) }
impl<D: Dsl> DslKey for D {} pub trait DslKey: Dsl {
fn key (&self) -> DslPerhaps<&str> {ok_flat(self.src()?.map(key_peek_only))}
}
impl<D: Dsl> DslKey for D {}
pub trait DslKey: Dsl {
fn key (&self) -> DslPerhaps<&str> { crate::parse::key_peek(self.src()) }
impl<D: Dsl> DslNum for D {} pub trait DslNum: Dsl {
fn num (&self) -> DslPerhaps<&str> {ok_flat(self.src()?.map(num_peek_only))}
}
impl<D: Dsl> DslText for D {}
pub trait DslText: Dsl {
fn text (&self) -> DslPerhaps<&str> { crate::parse::text_peek(self.src()) }
}
impl<D: Dsl> DslNum for D {}
pub trait DslNum: Dsl {
fn num (&self) -> DslPerhaps<&str> { crate::parse::num_peek(self.src()) }
}
/// DSL-specific result type.
pub type DslResult<T> = Result<T, DslError>;
/// DSL-specific optional result type.
pub type DslPerhaps<T> = Result<Option<T>, DslError>;
/// DSL-specific error codes.
#[derive(Error, Debug, Copy, Clone, PartialEq, PanicFmt)]
pub enum DslError {
@ -97,3 +55,245 @@ pub enum DslError {
#[error("parse failed: error #{0}")] Code(u8),
#[error("end reached")] End
}
#[macro_export] macro_rules! dsl_for_each (($dsl:expr => |$next:ident|$body:expr)=>{
let mut dsl: Arc<str> = $dsl.src().into();
let mut $next: Option<Arc<str>> = dsl.next()?.map(Into::into);
let mut rest: Option<Arc<str>> = dsl.rest()?.map(Into::into);
loop {
if let Some($next) = $next { $body } else { break };
if let Some(next) = rest {
$next = next.next()?.map(Into::into);
rest = next.rest()?.map(Into::into);
} else {
break
}
}
});
fn ok_flat <T> (x: Option<DslPerhaps<T>>) -> DslPerhaps<T> { Ok(x.transpose()?.flatten()) }
fn peek_tail <'a> (head: DslPerhaps<&'a str>) -> impl Fn(&'a str)->DslPerhaps<&'a str> {
move|src|match head {
Ok(Some(next)) => {
let src = &src[src.len().min(1 + next.len())..];
for c in src.chars() { if !is_whitespace(c) { return Ok(Some(src)) } }
Ok(None)
},
e => e
}
}
macro_rules! def_peek_seek(($peek:ident, $peek_only:ident, $seek:ident, $seek_start:ident, $seek_length:ident)=>{
/// Find a slice corrensponding to a syntax token.
pub const fn $peek (source: &str) -> DslPerhaps<&str> {
match $seek(source) {
Err(e) => Err(e),
Ok(None) => Ok(None),
Ok(Some((start, length))) => Ok(Some(str_range(source, start, start + length))),
}
}
/// Find a slice corrensponding to a syntax token
/// but return an error if it isn't the only thing
/// in the source.
pub const fn $peek_only (source: &str) -> DslPerhaps<&str> {
match $seek(source) {
Err(e) => Err(e),
Ok(None) => Ok(None),
Ok(Some((start, length))) => {
if let Err(e) = no_trailing_non_whitespace(source, start + length) { return Err(e) }
Ok(Some(str_range(source, start, start + length)))
}
}
}
/// Find a start and length corresponding to a syntax token.
pub const fn $seek (source: &str) -> DslPerhaps<(usize, usize)> {
match $seek_start(source) {
Err(e) => Err(e),
Ok(None) => Ok(None),
Ok(Some(start)) => match $seek_length(str_from(source, start)) {
Ok(Some(length)) => Ok(Some((start, length))),
Ok(None) => Ok(None),
Err(e) => Err(e),
},
}
}
});
def_peek_seek!(exp_peek, exp_peek_only, exp_seek, exp_seek_start, exp_seek_length);
pub const fn exp_peek_inner (source: &str) -> DslPerhaps<&str> {
match exp_peek(source) {
Ok(Some(peeked)) => {
let len = peeked.len();
let start = if len > 0 { 1 } else { 0 };
Ok(Some(str_range(source, start, start + len.saturating_sub(2))))
},
e => e
}
}
pub const fn exp_peek_inner_only (source: &str) -> DslPerhaps<&str> {
match exp_seek(source) {
Err(e) => Err(e),
Ok(None) => Ok(None),
Ok(Some((start, length))) => {
if let Err(e) = no_trailing_non_whitespace(source, start + length) { return Err(e) }
let peeked = str_range(source, start, start + length);
let len = peeked.len();
let start = if len > 0 { 1 } else { 0 };
Ok(Some(str_range(peeked, start, start + len.saturating_sub(2))))
},
}
}
pub const fn is_exp_start (c: char) -> bool { c == '(' }
pub const fn is_exp_end (c: char) -> bool { c == ')' }
pub const fn exp_seek_start (source: &str) -> DslPerhaps<usize> {
for_each!((i, c) in char_indices(source) => if is_exp_start(c) {
return Ok(Some(i))
} else if !is_whitespace(c) {
return Err(Unexpected(c))
});
Ok(None)
}
pub const fn exp_seek_length (source: &str) -> DslPerhaps<usize> {
let mut depth = 0;
for_each!((i, c) in char_indices(source) => if is_exp_start(c) {
depth += 1;
} else if is_exp_end(c) {
if depth == 0 {
return Err(Unexpected(c))
} else if depth == 1 {
return Ok(Some(i + 1))
} else {
depth -= 1;
}
});
Err(Incomplete)
}
def_peek_seek!(sym_peek, sym_peek_only, sym_seek, sym_seek_start, sym_seek_length);
pub const fn is_sym_start (c: char) -> bool { matches!(c, ':'|'@') }
pub const fn is_sym_char (c: char) -> bool { matches!(c, 'a'..='z'|'A'..='Z'|'0'..='9'|'-') }
pub const fn is_sym_end (c: char) -> bool { matches!(c, ' '|'\n'|'\r'|'\t'|')') }
pub const fn sym_seek_start (source: &str) -> DslPerhaps<usize> {
for_each!((i, c) in char_indices(source) => if is_sym_start(c) {
return Ok(Some(i))
} else if !is_whitespace(c) {
return Err(Unexpected(c))
});
Ok(None)
}
pub const fn sym_seek_length (source: &str) -> DslPerhaps<usize> {
for_each!((i, c) in char_indices(source) => if is_sym_end(c) {
return Ok(Some(i))
} else if !is_sym_char(c) {
return Err(Unexpected(c))
});
Ok(Some(source.len()))
}
def_peek_seek!(key_peek, key_peek_only, key_seek, key_seek_start, key_seek_length);
pub const fn is_key_start (c: char) -> bool { matches!(c, '/'|('a'..='z')) }
pub const fn is_key_char (c: char) -> bool { matches!(c, 'a'..='z'|'0'..='9'|'-'|'/') }
pub const fn is_key_end (c: char) -> bool { matches!(c, ' '|'\n'|'\r'|'\t'|')') }
pub const fn key_seek_start (source: &str) -> DslPerhaps<usize> {
for_each!((i, c) in char_indices(source) => if is_key_start(c) {
return Ok(Some(i))
} else if !is_whitespace(c) {
return Err(Unexpected(c))
});
Ok(None)
}
pub const fn key_seek_length (source: &str) -> DslPerhaps<usize> {
for_each!((i, c) in char_indices(source) => if is_key_end(c) {
return Ok(Some(i))
} else if !is_key_char(c) {
return Err(Unexpected(c))
});
Ok(Some(source.len()))
}
def_peek_seek!(text_peek, text_peek_only, text_seek, text_seek_start, text_seek_length);
pub const fn is_text_start (c: char) -> bool { matches!(c, '"') }
pub const fn is_text_end (c: char) -> bool { matches!(c, '"') }
pub const fn text_seek_start (source: &str) -> DslPerhaps<usize> {
for_each!((i, c) in char_indices(source) => if is_text_start(c) {
return Ok(Some(i))
} else if !is_whitespace(c) {
return Err(Unexpected(c))
});
Ok(None)
}
pub const fn text_seek_length (source: &str) -> DslPerhaps<usize> {
for_each!((i, c) in char_indices(source) => if is_text_end(c) { return Ok(Some(i)) });
Ok(None)
}
def_peek_seek!(num_peek, num_peek_only, num_seek, num_seek_start, num_seek_length);
pub const fn num_seek_start (source: &str) -> DslPerhaps<usize> {
for_each!((i, c) in char_indices(source) => if is_digit(c) {
return Ok(Some(i));
} else if !is_whitespace(c) {
return Err(Unexpected(c))
});
Ok(None)
}
pub const fn num_seek_length (source: &str) -> DslPerhaps<usize> {
for_each!((i, c) in char_indices(source) => if is_num_end(c) {
return Ok(Some(i))
} else if !is_digit(c) {
return Err(Unexpected(c))
});
Ok(None)
}
pub const fn is_digit (c: char) -> bool { matches!(c, '0'..='9') }
pub const fn is_num_end (c: char) -> bool { matches!(c, ' '|'\n'|'\r'|'\t'|')') }
pub const fn to_number <D: Dsl> (digits: &str) -> Result<usize, DslError> {
let mut iter = char_indices(digits);
let mut value = 0;
while let Some(((_, c), next)) = iter.next() {
match to_digit(c) {
Ok(digit) => value = 10 * value + digit,
Err(e) => return Err(e),
}
iter = next;
}
Ok(value)
}
pub const fn to_digit (c: char) -> Result<usize, DslError> {
Ok(match c {
'0' => 0, '1' => 1, '2' => 2, '3' => 3, '4' => 4,
'5' => 5, '6' => 6, '7' => 7, '8' => 8, '9' => 9,
_ => return Err(Unexpected(c))
})
}
pub const fn peek (src: &str) -> DslPerhaps<&str> {
Ok(Some(match () {
_ if let Ok(Some(exp)) = exp_peek(src) => exp,
_ if let Ok(Some(sym)) = sym_peek(src) => sym,
_ if let Ok(Some(key)) = key_peek(src) => key,
_ if let Ok(Some(num)) = num_peek(src) => num,
_ if let Ok(Some(text)) = text_peek(src) => text,
_ => {
for_each!((_, c) in char_indices(src) => if !is_whitespace(c) {
return Err(Unexpected(c))
});
return Ok(None)
}
}))
}
pub const fn seek (src: &str) -> DslPerhaps<(usize, usize)> {
Ok(Some(match () {
_ if let Ok(Some(exp)) = exp_seek(src) => exp,
_ if let Ok(Some(sym)) = sym_seek(src) => sym,
_ if let Ok(Some(key)) = key_seek(src) => key,
_ if let Ok(Some(num)) = num_seek(src) => num,
_ if let Ok(Some(text)) = text_seek(src) => text,
_ => {
for_each!((_, c) in char_indices(src) => if !is_whitespace(c) {
return Err(Unexpected(c))
});
return Ok(None)
}
}))
}
pub const fn is_whitespace (c: char) -> bool {
matches!(c, ' '|'\n'|'\r'|'\t')
}
pub const fn no_trailing_non_whitespace (source: &str, offset: usize) -> DslResult<()> {
let tail = str_range(source, offset, source.len());
for_each!((_, c) in char_indices(tail) => if !is_whitespace(c) {
return Err(Unexpected(c))
});
Ok(())
}

183
dsl/src/dsl_parse.rs
View file

@ -1,183 +0,0 @@
use crate::*;
macro_rules! iter_chars(($source:expr => |$i:ident, $c:ident|$val:expr)=>{
while let Some((($i, $c), next)) = char_indices($source).next() {
$source = next.as_str(); $val } });
macro_rules! def_peek_seek(($peek:ident, $seek:ident, $seek_start:ident, $seek_length:ident)=>{
/// Find a slice corrensponding to a syntax token.
pub const fn $peek (source: &str) -> DslPerhaps<&str> {
match $seek(source) {
Ok(Some((start, length))) => Ok(Some(str_range(source, start, start + length))),
Ok(None) => Ok(None),
Err(e) => Err(e) } }
/// Find a start and length corresponding to a syntax token.
pub const fn $seek (source: &str) -> DslPerhaps<(usize, usize)> {
match $seek_start(source) {
Ok(Some(start)) => match $seek_length(str_range(source, start, source.len() - start)) {
Ok(Some(length)) => Ok(Some((start, length))),
Ok(None) => Ok(None),
Err(e) => Err(e),
},
Ok(None) => Ok(None),
Err(e) => Err(e) } } });
def_peek_seek!(exp_peek, exp_seek, exp_seek_start, exp_seek_length);
pub const fn is_exp_start (c: char) -> bool { matches!(c, '(') }
pub const fn is_exp_end (c: char) -> bool { matches!(c, ')') }
pub const fn exp_seek_start (mut source: &str) -> DslPerhaps<usize> {
iter_chars!(source => |i, c| if is_exp_start(c) {
return Ok(Some(i))
} else if !is_whitespace(c) {
return Err(Unexpected(c))
});
Ok(None)
}
pub const fn exp_seek_length (mut source: &str) -> DslPerhaps<usize> {
let mut depth = 0;
iter_chars!(source => |i, c| if is_exp_start(c) {
depth += 1;
} else if is_exp_end(c) {
if depth == 0 {
return Err(Unexpected(c))
} else if depth == 1 {
return Ok(Some(i))
} else {
depth -= 1;
}
});
Ok(None)
}
def_peek_seek!(sym_peek, sym_seek, sym_seek_start, sym_seek_length);
pub const fn is_sym_start (c: char) -> bool { matches!(c, ':'|'@') }
pub const fn is_sym_char (c: char) -> bool { matches!(c, 'a'..='z'|'A'..='Z'|'0'..='9'|'-') }
pub const fn is_sym_end (c: char) -> bool { matches!(c, ' '|'\n'|'\r'|'\t'|')') }
pub const fn sym_seek_start (mut source: &str) -> DslPerhaps<usize> {
iter_chars!(source => |i, c| if is_sym_start(c) {
return Ok(Some(i))
} else if !is_whitespace(c) {
return Err(Unexpected(c))
});
Ok(None)
}
pub const fn sym_seek_length (mut source: &str) -> DslPerhaps<usize> {
iter_chars!(source => |i, c| if is_sym_end(c) {
return Ok(Some(i))
} else if !is_sym_char(c) {
return Err(Unexpected(c))
});
Ok(None)
}
def_peek_seek!(key_peek, key_seek, key_seek_start, key_seek_length);
pub const fn is_key_start (c: char) -> bool { matches!(c, '/'|'a'..='z') }
pub const fn is_key_char (c: char) -> bool { matches!(c, 'a'..='z'|'0'..='9'|'-'|'/') }
pub const fn is_key_end (c: char) -> bool { matches!(c, ' '|'\n'|'\r'|'\t'|')') }
pub const fn key_seek_start (mut source: &str) -> DslPerhaps<usize> {
iter_chars!(source => |i, c| if is_key_start(c) {
return Ok(Some(i))
} else if !is_whitespace(c) {
return Err(Unexpected(c))
});
Ok(None)
}
pub const fn key_seek_length (mut source: &str) -> DslPerhaps<usize> {
iter_chars!(source => |i, c| if is_key_end(c) {
return Ok(Some(i))
} else if !is_key_char(c) {
return Err(Unexpected(c))
});
Ok(None)
}
def_peek_seek!(text_peek, text_seek, text_seek_start, text_seek_length);
pub const fn is_text_start (c: char) -> bool { matches!(c, '"') }
pub const fn is_text_end (c: char) -> bool { matches!(c, '"') }
pub const fn text_seek_start (mut source: &str) -> DslPerhaps<usize> {
iter_chars!(source => |i, c| if is_text_start(c) {
return Ok(Some(i))
} else if !is_whitespace(c) {
return Err(Unexpected(c))
});
Ok(None)
}
pub const fn text_seek_length (mut source: &str) -> DslPerhaps<usize> {
iter_chars!(source => |i, c| if is_text_end(c) { return Ok(Some(i)) });
Ok(None)
}
def_peek_seek!(num_peek, num_seek, num_seek_start, num_seek_length);
pub const fn num_seek_start (mut source: &str) -> DslPerhaps<usize> {
iter_chars!(source => |i, c| if is_digit(c) {
return Ok(Some(i));
} else if !is_whitespace(c) {
return Err(Unexpected(c))
});
Ok(None)
}
pub const fn num_seek_length (mut source: &str) -> DslPerhaps<usize> {
iter_chars!(source => |i, c| if is_num_end(c) {
return Ok(Some(i))
} else if !is_digit(c) {
return Err(Unexpected(c))
});
Ok(None)
}
pub const fn is_digit (c: char) -> bool { matches!(c, '0'..='9') }
pub const fn is_num_end (c: char) -> bool { matches!(c, ' '|'\n'|'\r'|'\t'|')') }
pub const fn to_number <D: Dsl> (digits: &str) -> Result<usize, DslError> {
let mut iter = char_indices(digits);
let mut value = 0;
while let Some(((_, c), next)) = iter.next() {
match to_digit(c) {
Ok(digit) => value = 10 * value + digit,
Err(e) => return Err(e),
}
iter = next;
}
Ok(value)
}
pub const fn to_digit (c: char) -> Result<usize, DslError> {
Ok(match c {
'0' => 0, '1' => 1, '2' => 2, '3' => 3, '4' => 4,
'5' => 5, '6' => 6, '7' => 7, '8' => 8, '9' => 9,
_ => return Err(Unexpected(c))
})
}
pub const fn peek (mut src: &str) -> DslPerhaps<&str> {
Ok(Some(match () {
_ if let Ok(Some(exp)) = exp_peek(src) => exp,
_ if let Ok(Some(sym)) = sym_peek(src) => sym,
_ if let Ok(Some(key)) = key_peek(src) => key,
_ if let Ok(Some(num)) = num_peek(src) => num,
_ if let Ok(Some(text)) = text_peek(src) => text,
_ => {
iter_chars!(src => |_i, c| if !is_whitespace(c) {
return Err(Unexpected(c))
});
return Ok(None)
}
}))
}
pub const fn seek (mut src: &str) -> DslPerhaps<(usize, usize)> {
Ok(Some(match () {
_ if let Ok(Some(exp)) = exp_seek(src) => exp,
_ if let Ok(Some(sym)) = sym_seek(src) => sym,
_ if let Ok(Some(key)) = key_seek(src) => key,
_ if let Ok(Some(num)) = num_seek(src) => num,
_ if let Ok(Some(text)) = text_seek(src) => text,
_ => {
iter_chars!(src => |_i, c| if !is_whitespace(c) {
return Err(Unexpected(c))
});
return Ok(None)
}
}))
}
pub const fn is_whitespace (c: char) -> bool {
matches!(c, ' '|'\n'|'\r'|'\t')
}

97
dsl/src/dsl_test.rs
View file

@ -0,0 +1,97 @@
use crate::*;
macro_rules!is_some(($exp:expr, $val:expr)=>{assert_eq!($exp, Ok(Some($val)))};);
macro_rules!is_none(($exp:expr)=>{assert_eq!($exp, Ok(None))};);
macro_rules!is_err(($exp:expr)=>{assert!($exp.is_err())};
($exp:expr, $err:expr)=>{assert_eq!($exp, Err($err))};);
#[test] fn test_exp () -> Result<(), DslError> {
let e0 = DslError::Unexpected('a');
let e1 = DslError::Unexpected('(');
let e2 = DslError::Unexpected('b');
let e3 = DslError::Unexpected('d');
let check = |src: &str, key, exp, head, tail|{
assert_eq!(src.key(), key, "{src}");
assert_eq!(src.exp(), exp, "{src}");
assert_eq!(src.head(), head, "{src}");
assert_eq!(src.tail(), tail, "{src}");
};
check("a", Ok(Some("a")), Err(e0), Ok(Some("a")), Ok(None));
check("(a)", Err(e1), Ok(Some("a")), Ok(Some("(a)")), Ok(None));
check("a b c", Err(e2), Err(e0), Ok(Some("a")), Ok(Some("b c")));
check("(a b c)", Err(e1), Ok(Some("a b c")), Ok(Some("(a b c)")), Ok(None));
check("(a b c) d e f", Err(e1), Err(e3), Ok(Some("(a b c)")), Ok(Some("d e f")));
check("a (b c d) e f", Err(e1), Err(e0), Ok(Some("a")), Ok(Some("(b c d) e f")));
assert!(is_whitespace(' '));
assert!(!is_key_start(' '));
assert!(is_key_start('f'));
is_some!(key_seek_start("foo"), 0);
is_some!(key_seek_start("foo "), 0);
is_some!(key_seek_start(" foo "), 1);
is_some!(key_seek_length(&" foo "[1..]), 3);
is_some!(key_seek("foo"), (0, 3));
is_some!(key_peek("foo"), "foo");
is_some!(key_seek("foo "), (0, 3));
is_some!(key_peek("foo "), "foo");
is_some!(key_seek(" foo "), (1, 3));
is_some!(key_peek(" foo "), "foo");
is_err!("(foo)".key());
is_err!("foo".exp());
is_some!("(foo)".exp(), "foo");
is_some!("(foo)".head(), "(foo)");
is_none!("(foo)".tail());
is_some!("(foo bar baz)".exp(), "foo bar baz");
is_some!("(foo bar baz)".head(), "(foo bar baz)");
is_none!("(foo bar baz)".tail());
is_some!("(foo bar baz)".exp().head(), "foo");
is_some!("(foo bar baz)".exp().tail(), "bar baz");
is_some!("(foo bar baz)".exp().tail().head(), "bar");
is_some!("(foo bar baz)".exp().tail().tail(), "baz");
is_err!("foo".exp());
is_some!("foo".key(), "foo");
is_some!(" foo".key(), "foo");
is_some!(" foo ".key(), "foo");
is_some!(" foo ".head(), "foo");
//assert_eq!(" foo ".head().head(), Ok(None));
is_none!(" foo ".head().tail());
is_none!(" foo ".tail());
is_none!(" foo ".tail().head());
is_none!(" foo ".tail().tail());
assert_eq!(" foo bar ".head(), Ok(Some("foo")));
//assert_eq!(" foo bar ".head().head(), Ok(None));
assert_eq!(" foo bar ".head().tail(), Ok(None));
assert_eq!(" foo bar ".tail(), Ok(Some(" bar ")));
assert_eq!(" foo bar ".tail().head(), Ok(Some("bar")));
assert_eq!(" foo bar ".tail().tail(), Ok(None));
assert_eq!(" (foo) ".head(), Ok(Some("(foo)")));
//assert_eq!(" (foo) ".head().head(), Ok(Some("foo")));
//assert_eq!(" (foo) ".head().head().head(), Ok(None));
assert_eq!(" (foo) ".tail(), Ok(None));
assert_eq!(" (foo) (bar) ".head(), Ok(Some("(foo)")));
//assert_eq!(" (foo) (bar) ".head().head(), Ok(Some("foo")));
//assert_eq!(" (foo) (bar) ".head().head().head(), Ok(None));
is_some!(" (foo) (bar) ".tail(), " (bar) ");
is_some!(" (foo) (bar) ".tail().head(), "(bar)");
is_some!(" (foo) (bar) ".tail().head().head(), "(bar)");
is_some!(" (foo) (bar) ".tail().head().exp(), "bar");
is_some!(" (foo) (bar) ".tail().head().exp().head(), "bar");
is_some!(" (foo bar baz) ".head(), "(foo bar baz)");
is_some!(" (foo bar baz) ".head().head(), "(foo bar baz)");
is_some!(" (foo bar baz) ".exp(), "foo bar baz");
is_some!(" (foo bar baz) ".exp().head(), "foo");
is_some!(" (foo bar baz) ".exp().tail(), "bar baz");
is_some!(" (foo bar baz) ".exp().tail().head(), "bar");
is_some!(" (foo bar baz) ".exp().tail().tail(), "baz");
is_none!(" (foo bar baz) ".tail());
Ok(())
}

20
input/src/input_dsl.rs
View file

@ -1,10 +1,9 @@
use crate::*;
use std::{sync::Arc, collections::BTreeMap, path::{Path, PathBuf}, fs::{exists, read_to_string}};
/// Map of each event (e.g. key combination) to
/// all command expressions bound to it by
/// all loaded input layers.
type EventMapImpl<E, C> = BTreeMap<E, Vec<Binding<C>>>;
/// A collection of input bindings.
///
/// Each contained layer defines a mapping from input event to command invocation
@ -16,7 +15,6 @@ type EventMapImpl<E, C> = BTreeMap<E, Vec<Binding<C>>>;
/// that .event()binding's value is returned.
#[derive(Debug)]
pub struct EventMap<E, C>(EventMapImpl<E, C>);
/// An input binding.
#[derive(Debug, Clone)]
pub struct Binding<C> {
@ -25,18 +23,14 @@ pub struct Binding<C> {
pub description: Option<Arc<str>>,
pub source: Option<Arc<PathBuf>>,
}
/// Input bindings are only returned if this evaluates to true
#[derive(Clone)]
pub struct Condition(Arc<Box<dyn Fn()->bool + Send + Sync>>);
impl_debug!(Condition |self, w| { write!(w, "*") });
/// Default is always empty map regardless if `E` and `C` implement [Default].
impl<E, C> Default for EventMap<E, C> {
fn default () -> Self { Self(Default::default()) }
}
impl<E: Clone + Ord, C> EventMap<E, C> {
/// Create a new event map
pub fn new () -> Self {
@ -68,7 +62,7 @@ impl<E: Clone + Ord, C> EventMap<E, C> {
/// Create event map from path to text file.
pub fn from_path <P: AsRef<Path>> (path: P) -> Usually<Self> where E: From<Arc<str>> {
if exists(path.as_ref())? {
Self::from_source(read_and_leak(path)?)
Self::from_source(read_to_string(path)?)
} else {
return Err(format!("(e5) not found: {:?}", path.as_ref()).into())
}
@ -117,7 +111,6 @@ impl<E: Clone + Ord, C> EventMap<E, C> {
Ok(map)
}
}
impl<C> Binding<C> {
fn from_dsl (dsl: impl Dsl) -> Usually<Self> {
let mut command: Option<C> = None;
@ -131,18 +124,9 @@ impl<C> Binding<C> {
}
}
}
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())
}

8
input/src/input_test.rs
View file

@ -21,8 +21,8 @@ use crate::*;
Ok(())
}
#[cfg(all(test, feature = "dsl"))] #[test] fn test_dsl_keymap () -> Usually<()> {
let _keymap = CstIter::new("");
Ok(())
}
//#[cfg(all(test, feature = "dsl"))] #[test] fn test_dsl_keymap () -> Usually<()> {
//let _keymap = CstIter::new("");
//Ok(())
//}

7
input/src/lib.rs
View file

@ -1,13 +1,6 @@
#![feature(associated_type_defaults)]
#![feature(if_let_guard)]
pub(crate) use std::fmt::Debug;
pub(crate) use std::sync::Arc;
pub(crate) use std::collections::BTreeMap;
pub(crate) use std::path::{Path, PathBuf};
pub(crate) use std::fs::exists;
pub(crate) use tengri_core::*;
mod input_macros;
mod input; pub use self::input::*;
#[cfg(feature = "dsl")] pub(crate) use ::tengri_dsl::*;

155
tengri/src/test.rs
View file

@ -1,86 +1,87 @@
use crate::*;
use crate::{dsl::*, input::*, tui::TuiIn};
use crossterm::event::{Event, KeyEvent, KeyCode, KeyModifiers, KeyEventKind, KeyEventState};
use std::cmp::Ordering;
// FIXME
//use crate::*;
//use crate::{dsl::*, input::*, tui::TuiIn};
//use crossterm::event::{Event, KeyEvent, KeyCode, KeyModifiers, KeyEventKind, KeyEventState};
//use std::cmp::Ordering;
#[test] fn test_subcommand () -> Usually<()> {
#[derive(Debug)] struct Event(crossterm::event::Event);
impl Eq for Event {}
impl PartialEq for Event { fn eq (&self, other: &Self) -> bool { todo!() } }
impl Ord for Event { fn cmp (&self, other: &Self) -> Ordering { todo!() } }
impl PartialOrd for Event { fn partial_cmp (&self, other: &Self) -> Option<Ordering> { None } }
struct Test { keys: InputMap<Event, Ast> }
//#[test] fn test_subcommand () -> Usually<()> {
//#[derive(Debug)] struct Event(crossterm::event::Event);
//impl Eq for Event {}
//impl PartialEq for Event { fn eq (&self, other: &Self) -> bool { todo!() } }
//impl Ord for Event { fn cmp (&self, other: &Self) -> Ordering { todo!() } }
//impl PartialOrd for Event { fn partial_cmp (&self, other: &Self) -> Option<Ordering> { None } }
//struct Test { keys: InputMap<Event, Ast> }
handle!(TuiIn: |self: Test, input|Ok(None));/*if let Some(command) = self.keys.command(self, input) {
Ok(Some(true))
} else {
Ok(None)
});*/
//handle!(TuiIn: |self: Test, input|Ok(None));[>if let Some(command) = self.keys.command(self, input) {
//Ok(Some(true))
//} else {
//Ok(None)
//});*/
#[tengri_proc::command(Test)]
impl TestCommand {
fn do_thing (_state: &mut Test) -> Perhaps<Self> {
Ok(None)
}
fn do_thing_arg (_state: &mut Test, _arg: usize) -> Perhaps<Self> {
Ok(None)
}
fn do_sub (state: &mut Test, command: TestSubcommand) -> Perhaps<Self> {
Ok(command.execute(state)?.map(|command|Self::DoSub { command }))
}
}
//#[tengri_proc::command(Test)]
//impl TestCommand {
//fn do_thing (_state: &mut Test) -> Perhaps<Self> {
//Ok(None)
//}
//fn do_thing_arg (_state: &mut Test, _arg: usize) -> Perhaps<Self> {
//Ok(None)
//}
//fn do_sub (state: &mut Test, command: TestSubcommand) -> Perhaps<Self> {
//Ok(command.execute(state)?.map(|command|Self::DoSub { command }))
//}
//}
#[tengri_proc::command(Test)]
impl TestSubcommand {
fn do_other_thing (_state: &mut Test) -> Perhaps<Self> {
Ok(None)
}
fn do_other_thing_arg (_state: &mut Test, _arg: usize) -> Perhaps<Self> {
Ok(None)
}
}
//#[tengri_proc::command(Test)]
//impl TestSubcommand {
//fn do_other_thing (_state: &mut Test) -> Perhaps<Self> {
//Ok(None)
//}
//fn do_other_thing_arg (_state: &mut Test, _arg: usize) -> Perhaps<Self> {
//Ok(None)
//}
//}
let mut test = Test {
keys: InputMap::from_source("
(@a do-thing)
(@b do-thing-arg 0)
(@c do-sub do-other-thing)
(@d do-sub do-other-thing-arg 0)
")?
};
//let mut test = Test {
//keys: InputMap::from_source("
//(@a do-thing)
//(@b do-thing-arg 0)
//(@c do-sub do-other-thing)
//(@d do-sub do-other-thing-arg 0)
//")?
//};
//assert_eq!(Some(true), test.handle(&TuiIn(Default::default(), Event::Key(KeyEvent {
//kind: KeyEventKind::Press,
//code: KeyCode::Char('a'),
//modifiers: KeyModifiers::NONE,
//state: KeyEventState::NONE,
//})))?);
//assert_eq!(Some(true), test.handle(&TuiIn(Default::default(), Event::Key(KeyEvent {
//kind: KeyEventKind::Press,
//code: KeyCode::Char('b'),
//modifiers: KeyModifiers::NONE,
//state: KeyEventState::NONE,
//})))?);
//assert_eq!(Some(true), test.handle(&TuiIn(Default::default(), Event::Key(KeyEvent {
//kind: KeyEventKind::Press,
//code: KeyCode::Char('c'),
//modifiers: KeyModifiers::NONE,
//state: KeyEventState::NONE,
//})))?);
//assert_eq!(Some(true), test.handle(&TuiIn(Default::default(), Event::Key(KeyEvent {
//kind: KeyEventKind::Press,
//code: KeyCode::Char('d'),
//modifiers: KeyModifiers::NONE,
//state: KeyEventState::NONE,
//})))?);
//assert_eq!(None, test.handle(&TuiIn(Default::default(), Event::Key(KeyEvent {
//kind: KeyEventKind::Press,
//code: KeyCode::Char('z'),
//modifiers: KeyModifiers::NONE,
//state: KeyEventState::NONE,
//})))?);
Ok(())
}
////assert_eq!(Some(true), test.handle(&TuiIn(Default::default(), Event::Key(KeyEvent {
////kind: KeyEventKind::Press,
////code: KeyCode::Char('a'),
////modifiers: KeyModifiers::NONE,
////state: KeyEventState::NONE,
////})))?);
////assert_eq!(Some(true), test.handle(&TuiIn(Default::default(), Event::Key(KeyEvent {
////kind: KeyEventKind::Press,
////code: KeyCode::Char('b'),
////modifiers: KeyModifiers::NONE,
////state: KeyEventState::NONE,
////})))?);
////assert_eq!(Some(true), test.handle(&TuiIn(Default::default(), Event::Key(KeyEvent {
////kind: KeyEventKind::Press,
////code: KeyCode::Char('c'),
////modifiers: KeyModifiers::NONE,
////state: KeyEventState::NONE,
////})))?);
////assert_eq!(Some(true), test.handle(&TuiIn(Default::default(), Event::Key(KeyEvent {
////kind: KeyEventKind::Press,
////code: KeyCode::Char('d'),
////modifiers: KeyModifiers::NONE,
////state: KeyEventState::NONE,
////})))?);
////assert_eq!(None, test.handle(&TuiIn(Default::default(), Event::Key(KeyEvent {
////kind: KeyEventKind::Press,
////code: KeyCode::Char('z'),
////modifiers: KeyModifiers::NONE,
////state: KeyEventState::NONE,
////})))?);
//Ok(())
//}
//FIXME:
//#[cfg(test)] #[test] fn test_dsl_context () {

18
tui/src/lib.rs
View file

@ -1,28 +1,17 @@
#![feature(type_changing_struct_update)]
mod tui_engine; pub use self::tui_engine::*;
mod tui_content; pub use self::tui_content::*;
pub(crate) use ::tengri_core::*;
pub use ::tengri_input as input;
pub(crate) use ::tengri_input::*;
pub use ::tengri_output as output;
pub(crate) use ::tengri_output::*;
pub use ::tengri_input as input; pub(crate) use ::tengri_input::*;
pub use ::tengri_output as output; pub(crate) use ::tengri_output::*;
pub(crate) use atomic_float::AtomicF64;
pub use ::better_panic; pub(crate) use ::better_panic::{Settings, Verbosity};
pub use ::palette; pub(crate) use ::palette::{*, convert::*, okhsl::*};
pub use ::crossterm; pub(crate) use ::crossterm::{
ExecutableCommand,
terminal::{EnterAlternateScreen, LeaveAlternateScreen, enable_raw_mode, disable_raw_mode},
event::{Event, KeyEvent, KeyCode, KeyModifiers, KeyEventKind, KeyEventState},
};
pub use ::ratatui; pub(crate) use ratatui::{
prelude::{Color, Style, Buffer},
style::Modifier,
@ -30,10 +19,8 @@ pub use ::ratatui; pub(crate) use ratatui::{
layout::{Size, Rect},
buffer::Cell
};
pub(crate) use std::sync::{Arc, RwLock, atomic::{AtomicBool, Ordering::*}};
pub(crate) use std::io::{stdout, Stdout};
#[cfg(test)] #[test] fn test_tui_engine () -> Usually<()> {
use crate::*;
//use std::sync::{Arc, RwLock};
@ -55,7 +42,6 @@ pub(crate) use std::io::{stdout, Stdout};
//engine.run(&state)?;
Ok(())
}
#[cfg(test)] #[test] fn test_parse_key () {
//use KeyModifiers as Mods;
let _test = |x: &str, y|assert_eq!(KeyMatcher::new(x).build(), Some(Event::Key(y)));