asdf

src/calc.rs

@@ -1,703 +0,0 @@
-// auto-generated: "lalrpop 0.19.5"
-// sha3: 7f1eed9c7f5eae965f19f037e3f83cc3f8b8ac855ed1b7d5e579d3c668c23b2
-use std::str::FromStr;
-use crate::Expr;
-#[allow(unused_extern_crates)]
-extern crate lalrpop_util as __lalrpop_util;
-#[allow(unused_imports)]
-use self::__lalrpop_util::state_machine as __state_machine;
-extern crate core;
-extern crate alloc;
-
-#[cfg_attr(rustfmt, rustfmt_skip)]
-mod __parse__Expr {
-    #![allow(non_snake_case, non_camel_case_types, unused_mut, unused_variables, unused_imports, unused_parens)]
-
-    use std::str::FromStr;
-    use crate::Expr;
-    #[allow(unused_extern_crates)]
-    extern crate lalrpop_util as __lalrpop_util;
-    #[allow(unused_imports)]
-    use self::__lalrpop_util::state_machine as __state_machine;
-    extern crate core;
-    extern crate alloc;
-    use self::__lalrpop_util::lexer::Token;
-    #[allow(dead_code)]
-    pub(crate) enum __Symbol<'input>
-     {
-        Variant0(&'input str),
-        Variant1(Expr),
-        Variant2(alloc::vec::Vec<Expr>),
-        Variant3(i32),
-    }
-    const __ACTION: &[i8] = &[
-        // State 0
-        2, 0, 7, 8,
-        // State 1
-        2, 0, 7, 8,
-        // State 2
-        2, 11, 7, 8,
-        // State 3
-        0, 0, 0, 0,
-        // State 4
-        -5, -5, -5, -5,
-        // State 5
-        -6, -6, -6, -6,
-        // State 6
-        -7, -7, -7, -7,
-        // State 7
-        -8, -8, -8, -8,
-        // State 8
-        -2, -2, -2, -2,
-        // State 9
-        -3, -3, -3, -3,
-        // State 10
-        -4, -4, -4, -4,
-    ];
-    fn __action(state: i8, integer: usize) -> i8 {
-        __ACTION[(state as usize) * 4 + integer]
-    }
-    const __EOF_ACTION: &[i8] = &[
-        // State 0
-        0,
-        // State 1
-        0,
-        // State 2
-        0,
-        // State 3
-        -9,
-        // State 4
-        -5,
-        // State 5
-        -6,
-        // State 6
-        -7,
-        // State 7
-        -8,
-        // State 8
-        0,
-        // State 9
-        0,
-        // State 10
-        -4,
-    ];
-    fn __goto(state: i8, nt: usize) -> i8 {
-        match nt {
-            1 => 2,
-            2 => match state {
-                1 => 8,
-                2 => 9,
-                _ => 3,
-            },
-            3 => 4,
-            4 => 5,
-            _ => 0,
-        }
-    }
-    fn __expected_tokens(__state: i8) -> alloc::vec::Vec<alloc::string::String> {
-        const __TERMINAL: &[&str] = &[
-            r###""(""###,
-            r###"")""###,
-            r###"r#":[^\\s]+"#"###,
-            r###"r#"[0-9]+"#"###,
-        ];
-        __TERMINAL.iter().enumerate().filter_map(|(index, terminal)| {
-            let next_state = __action(__state, index);
-            if next_state == 0 {
-                None
-            } else {
-                Some(alloc::string::ToString::to_string(terminal))
-            }
-        }).collect()
-    }
-    pub(crate) struct __StateMachine<'input>
-    where 
-    {
-        input: &'input str,
-        __phantom: core::marker::PhantomData<(&'input ())>,
-    }
-    impl<'input> __state_machine::ParserDefinition for __StateMachine<'input>
-    where 
-    {
-        type Location = usize;
-        type Error = &'static str;
-        type Token = Token<'input>;
-        type TokenIndex = usize;
-        type Symbol = __Symbol<'input>;
-        type Success = Expr;
-        type StateIndex = i8;
-        type Action = i8;
-        type ReduceIndex = i8;
-        type NonterminalIndex = usize;
-
-        #[inline]
-        fn start_location(&self) -> Self::Location {
-              Default::default()
-        }
-
-        #[inline]
-        fn start_state(&self) -> Self::StateIndex {
-              0
-        }
-
-        #[inline]
-        fn token_to_index(&self, token: &Self::Token) -> Option<usize> {
-            __token_to_integer(token, core::marker::PhantomData::<(&())>)
-        }
-
-        #[inline]
-        fn action(&self, state: i8, integer: usize) -> i8 {
-            __action(state, integer)
-        }
-
-        #[inline]
-        fn error_action(&self, state: i8) -> i8 {
-            __action(state, 4 - 1)
-        }
-
-        #[inline]
-        fn eof_action(&self, state: i8) -> i8 {
-            __EOF_ACTION[state as usize]
-        }
-
-        #[inline]
-        fn goto(&self, state: i8, nt: usize) -> i8 {
-            __goto(state, nt)
-        }
-
-        fn token_to_symbol(&self, token_index: usize, token: Self::Token) -> Self::Symbol {
-            __token_to_symbol(token_index, token, core::marker::PhantomData::<(&())>)
-        }
-
-        fn expected_tokens(&self, state: i8) -> alloc::vec::Vec<alloc::string::String> {
-            __expected_tokens(state)
-        }
-
-        #[inline]
-        fn uses_error_recovery(&self) -> bool {
-            false
-        }
-
-        #[inline]
-        fn error_recovery_symbol(
-            &self,
-            recovery: __state_machine::ErrorRecovery<Self>,
-        ) -> Self::Symbol {
-            panic!("error recovery not enabled for this grammar")
-        }
-
-        fn reduce(
-            &mut self,
-            action: i8,
-            start_location: Option<&Self::Location>,
-            states: &mut alloc::vec::Vec<i8>,
-            symbols: &mut alloc::vec::Vec<__state_machine::SymbolTriple<Self>>,
-        ) -> Option<__state_machine::ParseResult<Self>> {
-            __reduce(
-                self.input,
-                action,
-                start_location,
-                states,
-                symbols,
-                core::marker::PhantomData::<(&())>,
-            )
-        }
-
-        fn simulate_reduce(&self, action: i8) -> __state_machine::SimulatedReduce<Self> {
-            panic!("error recovery not enabled for this grammar")
-        }
-    }
-    fn __token_to_integer<
-        'input,
-    >(
-        __token: &Token<'input>,
-        _: core::marker::PhantomData<(&'input ())>,
-    ) -> Option<usize>
-    {
-        match *__token {
-            Token(2, _) if true => Some(0),
-            Token(3, _) if true => Some(1),
-            Token(0, _) if true => Some(2),
-            Token(1, _) if true => Some(3),
-            _ => None,
-        }
-    }
-    fn __token_to_symbol<
-        'input,
-    >(
-        __token_index: usize,
-        __token: Token<'input>,
-        _: core::marker::PhantomData<(&'input ())>,
-    ) -> __Symbol<'input>
-    {
-        match __token_index {
-            0 | 1 | 2 | 3 => match __token {
-                Token(2, __tok0) | Token(3, __tok0) | Token(0, __tok0) | Token(1, __tok0) if true => __Symbol::Variant0(__tok0),
-                _ => unreachable!(),
-            },
-            _ => unreachable!(),
-        }
-    }
-    pub struct ExprParser {
-        builder: __lalrpop_util::lexer::MatcherBuilder,
-        _priv: (),
-    }
-
-    impl ExprParser {
-        pub fn new() -> ExprParser {
-            let __builder = super::__intern_token::new_builder();
-            ExprParser {
-                builder: __builder,
-                _priv: (),
-            }
-        }
-
-        #[allow(dead_code)]
-        pub fn parse<
-            'input,
-        >(
-            &self,
-            input: &'input str,
-        ) -> Result<Expr, __lalrpop_util::ParseError<usize, Token<'input>, &'static str>>
-        {
-            let mut __tokens = self.builder.matcher(input);
-            __state_machine::Parser::drive(
-                __StateMachine {
-                    input,
-                    __phantom: core::marker::PhantomData::<(&())>,
-                },
-                __tokens,
-            )
-        }
-    }
-    pub(crate) fn __reduce<
-        'input,
-    >(
-        input: &'input str,
-        __action: i8,
-        __lookahead_start: Option<&usize>,
-        __states: &mut alloc::vec::Vec<i8>,
-        __symbols: &mut alloc::vec::Vec<(usize,__Symbol<'input>,usize)>,
-        _: core::marker::PhantomData<(&'input ())>,
-    ) -> Option<Result<Expr,__lalrpop_util::ParseError<usize, Token<'input>, &'static str>>>
-    {
-        let (__pop_states, __nonterminal) = match __action {
-            0 => {
-                __reduce0(input, __lookahead_start, __symbols, core::marker::PhantomData::<(&())>)
-            }
-            1 => {
-                __reduce1(input, __lookahead_start, __symbols, core::marker::PhantomData::<(&())>)
-            }
-            2 => {
-                __reduce2(input, __lookahead_start, __symbols, core::marker::PhantomData::<(&())>)
-            }
-            3 => {
-                __reduce3(input, __lookahead_start, __symbols, core::marker::PhantomData::<(&())>)
-            }
-            4 => {
-                __reduce4(input, __lookahead_start, __symbols, core::marker::PhantomData::<(&())>)
-            }
-            5 => {
-                __reduce5(input, __lookahead_start, __symbols, core::marker::PhantomData::<(&())>)
-            }
-            6 => {
-                __reduce6(input, __lookahead_start, __symbols, core::marker::PhantomData::<(&())>)
-            }
-            7 => {
-                __reduce7(input, __lookahead_start, __symbols, core::marker::PhantomData::<(&())>)
-            }
-            8 => {
-                // __Expr = Expr => ActionFn(0);
-                let __sym0 = __pop_Variant1(__symbols);
-                let __start = __sym0.0.clone();
-                let __end = __sym0.2.clone();
-                let __nt = super::__action0::<>(input, __sym0);
-                return Some(Ok(__nt));
-            }
-            _ => panic!("invalid action code {}", __action)
-        };
-        let __states_len = __states.len();
-        __states.truncate(__states_len - __pop_states);
-        let __state = *__states.last().unwrap();
-        let __next_state = __goto(__state, __nonterminal);
-        __states.push(__next_state);
-        None
-    }
-    #[inline(never)]
-    fn __symbol_type_mismatch() -> ! {
-        panic!("symbol type mismatch")
-    }
-    fn __pop_Variant1<
-      'input,
-    >(
-        __symbols: &mut alloc::vec::Vec<(usize,__Symbol<'input>,usize)>
-    ) -> (usize, Expr, usize)
-     {
-        match __symbols.pop() {
-            Some((__l, __Symbol::Variant1(__v), __r)) => (__l, __v, __r),
-            _ => __symbol_type_mismatch()
-        }
-    }
-    fn __pop_Variant2<
-      'input,
-    >(
-        __symbols: &mut alloc::vec::Vec<(usize,__Symbol<'input>,usize)>
-    ) -> (usize, alloc::vec::Vec<Expr>, usize)
-     {
-        match __symbols.pop() {
-            Some((__l, __Symbol::Variant2(__v), __r)) => (__l, __v, __r),
-            _ => __symbol_type_mismatch()
-        }
-    }
-    fn __pop_Variant3<
-      'input,
-    >(
-        __symbols: &mut alloc::vec::Vec<(usize,__Symbol<'input>,usize)>
-    ) -> (usize, i32, usize)
-     {
-        match __symbols.pop() {
-            Some((__l, __Symbol::Variant3(__v), __r)) => (__l, __v, __r),
-            _ => __symbol_type_mismatch()
-        }
-    }
-    fn __pop_Variant0<
-      'input,
-    >(
-        __symbols: &mut alloc::vec::Vec<(usize,__Symbol<'input>,usize)>
-    ) -> (usize, &'input str, usize)
-     {
-        match __symbols.pop() {
-            Some((__l, __Symbol::Variant0(__v), __r)) => (__l, __v, __r),
-            _ => __symbol_type_mismatch()
-        }
-    }
-    pub(crate) fn __reduce0<
-        'input,
-    >(
-        input: &'input str,
-        __lookahead_start: Option<&usize>,
-        __symbols: &mut alloc::vec::Vec<(usize,__Symbol<'input>,usize)>,
-        _: core::marker::PhantomData<(&'input ())>,
-    ) -> (usize, usize)
-    {
-        // (<Expr>) = Expr => ActionFn(8);
-        let __sym0 = __pop_Variant1(__symbols);
-        let __start = __sym0.0.clone();
-        let __end = __sym0.2.clone();
-        let __nt = super::__action8::<>(input, __sym0);
-        __symbols.push((__start, __Symbol::Variant1(__nt), __end));
-        (1, 0)
-    }
-    pub(crate) fn __reduce1<
-        'input,
-    >(
-        input: &'input str,
-        __lookahead_start: Option<&usize>,
-        __symbols: &mut alloc::vec::Vec<(usize,__Symbol<'input>,usize)>,
-        _: core::marker::PhantomData<(&'input ())>,
-    ) -> (usize, usize)
-    {
-        // (<Expr>)+ = Expr => ActionFn(9);
-        let __sym0 = __pop_Variant1(__symbols);
-        let __start = __sym0.0.clone();
-        let __end = __sym0.2.clone();
-        let __nt = super::__action9::<>(input, __sym0);
-        __symbols.push((__start, __Symbol::Variant2(__nt), __end));
-        (1, 1)
-    }
-    pub(crate) fn __reduce2<
-        'input,
-    >(
-        input: &'input str,
-        __lookahead_start: Option<&usize>,
-        __symbols: &mut alloc::vec::Vec<(usize,__Symbol<'input>,usize)>,
-        _: core::marker::PhantomData<(&'input ())>,
-    ) -> (usize, usize)
-    {
-        // (<Expr>)+ = (<Expr>)+, Expr => ActionFn(10);
-        assert!(__symbols.len() >= 2);
-        let __sym1 = __pop_Variant1(__symbols);
-        let __sym0 = __pop_Variant2(__symbols);
-        let __start = __sym0.0.clone();
-        let __end = __sym1.2.clone();
-        let __nt = super::__action10::<>(input, __sym0, __sym1);
-        __symbols.push((__start, __Symbol::Variant2(__nt), __end));
-        (2, 1)
-    }
-    pub(crate) fn __reduce3<
-        'input,
-    >(
-        input: &'input str,
-        __lookahead_start: Option<&usize>,
-        __symbols: &mut alloc::vec::Vec<(usize,__Symbol<'input>,usize)>,
-        _: core::marker::PhantomData<(&'input ())>,
-    ) -> (usize, usize)
-    {
-        // Expr = "(", (<Expr>)+, ")" => ActionFn(1);
-        assert!(__symbols.len() >= 3);
-        let __sym2 = __pop_Variant0(__symbols);
-        let __sym1 = __pop_Variant2(__symbols);
-        let __sym0 = __pop_Variant0(__symbols);
-        let __start = __sym0.0.clone();
-        let __end = __sym2.2.clone();
-        let __nt = super::__action1::<>(input, __sym0, __sym1, __sym2);
-        __symbols.push((__start, __Symbol::Variant1(__nt), __end));
-        (3, 2)
-    }
-    pub(crate) fn __reduce4<
-        'input,
-    >(
-        input: &'input str,
-        __lookahead_start: Option<&usize>,
-        __symbols: &mut alloc::vec::Vec<(usize,__Symbol<'input>,usize)>,
-        _: core::marker::PhantomData<(&'input ())>,
-    ) -> (usize, usize)
-    {
-        // Expr = Keyword => ActionFn(2);
-        let __sym0 = __pop_Variant1(__symbols);
-        let __start = __sym0.0.clone();
-        let __end = __sym0.2.clone();
-        let __nt = super::__action2::<>(input, __sym0);
-        __symbols.push((__start, __Symbol::Variant1(__nt), __end));
-        (1, 2)
-    }
-    pub(crate) fn __reduce5<
-        'input,
-    >(
-        input: &'input str,
-        __lookahead_start: Option<&usize>,
-        __symbols: &mut alloc::vec::Vec<(usize,__Symbol<'input>,usize)>,
-        _: core::marker::PhantomData<(&'input ())>,
-    ) -> (usize, usize)
-    {
-        // Expr = Num => ActionFn(3);
-        let __sym0 = __pop_Variant3(__symbols);
-        let __start = __sym0.0.clone();
-        let __end = __sym0.2.clone();
-        let __nt = super::__action3::<>(input, __sym0);
-        __symbols.push((__start, __Symbol::Variant1(__nt), __end));
-        (1, 2)
-    }
-    pub(crate) fn __reduce6<
-        'input,
-    >(
-        input: &'input str,
-        __lookahead_start: Option<&usize>,
-        __symbols: &mut alloc::vec::Vec<(usize,__Symbol<'input>,usize)>,
-        _: core::marker::PhantomData<(&'input ())>,
-    ) -> (usize, usize)
-    {
-        // Keyword = r#":[^\\s]+"# => ActionFn(4);
-        let __sym0 = __pop_Variant0(__symbols);
-        let __start = __sym0.0.clone();
-        let __end = __sym0.2.clone();
-        let __nt = super::__action4::<>(input, __sym0);
-        __symbols.push((__start, __Symbol::Variant1(__nt), __end));
-        (1, 3)
-    }
-    pub(crate) fn __reduce7<
-        'input,
-    >(
-        input: &'input str,
-        __lookahead_start: Option<&usize>,
-        __symbols: &mut alloc::vec::Vec<(usize,__Symbol<'input>,usize)>,
-        _: core::marker::PhantomData<(&'input ())>,
-    ) -> (usize, usize)
-    {
-        // Num = r#"[0-9]+"# => ActionFn(5);
-        let __sym0 = __pop_Variant0(__symbols);
-        let __start = __sym0.0.clone();
-        let __end = __sym0.2.clone();
-        let __nt = super::__action5::<>(input, __sym0);
-        __symbols.push((__start, __Symbol::Variant3(__nt), __end));
-        (1, 4)
-    }
-}
-pub use self::__parse__Expr::ExprParser;
-#[cfg_attr(rustfmt, rustfmt_skip)]
-mod __intern_token {
-    #![allow(unused_imports)]
-    use std::str::FromStr;
-    use crate::Expr;
-    #[allow(unused_extern_crates)]
-    extern crate lalrpop_util as __lalrpop_util;
-    #[allow(unused_imports)]
-    use self::__lalrpop_util::state_machine as __state_machine;
-    extern crate core;
-    extern crate alloc;
-    pub fn new_builder() -> __lalrpop_util::lexer::MatcherBuilder {
-        let __strs: &[(&str, bool)] = &[
-            ("^(:[\u{0}-\u{8}\u{e}-\u{1f}!-\u{84}\u{86}-\u{9f}¡-ᙿᚁ-\u{1fff}\u{200b}-‧\u{202a}-\u{202e}‰-⁞\u{2060}-\u{2fff}、-\u{10ffff}]+)", false),
-            ("^([0-9]+)", false),
-            ("^(\\()", false),
-            ("^(\\))", false),
-            (r"^(\s*)", true),
-        ];
-        __lalrpop_util::lexer::MatcherBuilder::new(__strs.iter().copied()).unwrap()
-    }
-}
-pub(crate) use self::__lalrpop_util::lexer::Token;
-
-#[allow(unused_variables)]
-fn __action0<
-    'input,
->(
-    input: &'input str,
-    (_, __0, _): (usize, Expr, usize),
-) -> Expr
-{
-    __0
-}
-
-#[allow(unused_variables)]
-fn __action1<
-    'input,
->(
-    input: &'input str,
-    (_, _, _): (usize, &'input str, usize),
-    (_, elems, _): (usize, alloc::vec::Vec<Expr>, usize),
-    (_, _, _): (usize, &'input str, usize),
-) -> Expr
-{
-    Expr::List(elems)
-}
-
-#[allow(unused_variables)]
-fn __action2<
-    'input,
->(
-    input: &'input str,
-    (_, x, _): (usize, Expr, usize),
-) -> Expr
-{
-    x
-}
-
-#[allow(unused_variables)]
-fn __action3<
-    'input,
->(
-    input: &'input str,
-    (_, x, _): (usize, i32, usize),
-) -> Expr
-{
-    Expr::Number(x)
-}
-
-#[allow(unused_variables)]
-fn __action4<
-    'input,
->(
-    input: &'input str,
-    (_, __0, _): (usize, &'input str, usize),
-) -> Expr
-{
-    Expr::Keyword(__0.to_string())
-}
-
-#[allow(unused_variables)]
-fn __action5<
-    'input,
->(
-    input: &'input str,
-    (_, __0, _): (usize, &'input str, usize),
-) -> i32
-{
-    i32::from_str(__0).unwrap()
-}
-
-#[allow(unused_variables)]
-fn __action6<
-    'input,
->(
-    input: &'input str,
-    (_, __0, _): (usize, Expr, usize),
-) -> alloc::vec::Vec<Expr>
-{
-    alloc::vec![__0]
-}
-
-#[allow(unused_variables)]
-fn __action7<
-    'input,
->(
-    input: &'input str,
-    (_, v, _): (usize, alloc::vec::Vec<Expr>, usize),
-    (_, e, _): (usize, Expr, usize),
-) -> alloc::vec::Vec<Expr>
-{
-    { let mut v = v; v.push(e); v }
-}
-
-#[allow(unused_variables)]
-fn __action8<
-    'input,
->(
-    input: &'input str,
-    (_, __0, _): (usize, Expr, usize),
-) -> Expr
-{
-    __0
-}
-
-#[allow(unused_variables)]
-fn __action9<
-    'input,
->(
-    input: &'input str,
-    __0: (usize, Expr, usize),
-) -> alloc::vec::Vec<Expr>
-{
-    let __start0 = __0.0.clone();
-    let __end0 = __0.2.clone();
-    let __temp0 = __action8(
-        input,
-        __0,
-    );
-    let __temp0 = (__start0, __temp0, __end0);
-    __action6(
-        input,
-        __temp0,
-    )
-}
-
-#[allow(unused_variables)]
-fn __action10<
-    'input,
->(
-    input: &'input str,
-    __0: (usize, alloc::vec::Vec<Expr>, usize),
-    __1: (usize, Expr, usize),
-) -> alloc::vec::Vec<Expr>
-{
-    let __start0 = __1.0.clone();
-    let __end0 = __1.2.clone();
-    let __temp0 = __action8(
-        input,
-        __1,
-    );
-    let __temp0 = (__start0, __temp0, __end0);
-    __action7(
-        input,
-        __0,
-        __temp0,
-    )
-}
-
-pub trait __ToTriple<'input, > {
-    fn to_triple(value: Self) -> Result<(usize,Token<'input>,usize), __lalrpop_util::ParseError<usize, Token<'input>, &'static str>>;
-}
-
-impl<'input, > __ToTriple<'input, > for (usize, Token<'input>, usize) {
-    fn to_triple(value: Self) -> Result<(usize,Token<'input>,usize), __lalrpop_util::ParseError<usize, Token<'input>, &'static str>> {
-        Ok(value)
-    }
-}
-impl<'input, > __ToTriple<'input, > for Result<(usize, Token<'input>, usize), &'static str> {
-    fn to_triple(value: Self) -> Result<(usize,Token<'input>,usize), __lalrpop_util::ParseError<usize, Token<'input>, &'static str>> {
-        match value {
-            Ok(v) => Ok(v),
-            Err(error) => Err(__lalrpop_util::ParseError::User { error }),
-        }
-    }
-}

src/config.rs

@@ -2,16 +2,28 @@ use std::{collections::HashMap, iter::FromIterator};
 
 use super::*;
 use anyhow::*;
+use itertools::Itertools;
 use std::collections::LinkedList;
 
 type VarName = String;
 type AttrValue = String;
 type AttrName = String;
 
+#[derive(Debug, PartialEq, Eq)]
 pub enum AstError {
     UnexpectedNode,
     InvalidDefinition,
-    WrongExprType,
+    WrongExprType(Sp<Expr>),
+    MissingNode,
+}
+
+trait OptionAstErrorExt<T> {
+    fn or_missing(self) -> Result<T, AstError>;
+}
+impl<T> OptionAstErrorExt<T> for Option<T> {
+    fn or_missing(self) -> Result<T, AstError> {
+        self.ok_or(AstError::MissingNode)
+    }
 }
 
 impl From<WrongExprType> for AstError {
@@ -27,6 +39,12 @@ pub trait FromExpr: Sized {
     }
 }
 
+impl FromExpr for Expr {
+    fn from_expr(e: Expr) -> Result<Self, AstError> {
+        Ok(e)
+    }
+}
+
 pub enum DefType {
     Widget,
 }
@@ -54,15 +72,13 @@ pub struct Definitional<T> {
 impl<T: FromExpr> FromExpr for Definitional<T> {
     fn from_expr(e: Expr) -> Result<Self, AstError> {
         if let Expr::List(list) = e {
-            let mut iter = SExpIterator::new(list);
+            let mut iter = itertools::put_back(list.into_iter());
 
-            let def_type = DefType::from_sp(iter.next().unwrap().as_single().unwrap())?;
-            let name = iter.next().unwrap().as_single().unwrap().1.str()?;
-            let attrs = iter.next().unwrap().as_key_value().unwrap();
+            let def_type = DefType::from_sp(iter.next().or_missing()?)?;
+            let name = iter.next().or_missing()?.1.str()?;
+            let attrs = parse_key_values(&mut iter);
 
-            let children = iter
-                .map(|elem| T::from_sp(elem.as_single()?))
-                .collect::<Result<Vec<_>, AstError>>()?;
+            let children = iter.map(T::from_sp).collect::<Result<Vec<_>, AstError>>()?;
             Ok(Definitional {
                 def_type,
                 name,
@@ -74,72 +90,88 @@ impl<T: FromExpr> FromExpr for Definitional<T> {
         }
     }
 }
-
-pub struct WidgetDefinition {
+#[derive(Debug, Eq, PartialEq)]
+pub struct Element<T> {
     name: String,
-    argnames: Vec<VarName>,
+    attrs: HashMap<AttrName, Sp<Expr>>,
+    children: Vec<T>,
 }
 
-struct SExpIterator {
-    elements: LinkedList<Sp<Expr>>,
-}
+impl FromExpr for Element<Sp<Expr>> {
+    fn from_expr(e: Expr) -> Result<Self, AstError> {
+        if let Expr::List(list) = e {
+            let mut iter = itertools::put_back(list.into_iter());
 
-impl SExpIterator {
-    fn new(elements: Vec<Sp<Expr>>) -> Self {
-        SExpIterator {
-            elements: LinkedList::from_iter(elements.into_iter()),
+            let name = iter.next().or_missing()?.1.str()?;
+            let attrs = parse_key_values(&mut iter);
+
+            Ok(Element {
+                name,
+                attrs,
+                children: iter.collect_vec(),
+            })
+        } else {
+            Err(AstError::UnexpectedNode)
         }
     }
 }
 
-enum ExpressionElement {
-    Single(Sp<Expr>),
-    KeyValue(HashMap<String, Sp<Expr>>),
-}
-
-impl ExpressionElement {
-    fn as_single(self) -> Option<Sp<Expr>> {
-        match self {
-            ExpressionElement::Single(x) => Some(x),
-            ExpressionElement::KeyValue(_) => None,
-        }
-    }
-    fn as_key_value(self) -> Option<HashMap<String, Sp<Expr>>> {
-        match self {
-            ExpressionElement::Single(_) => None,
-            ExpressionElement::KeyValue(x) => Some(x),
-        }
-    }
-}
-
-impl Iterator for SExpIterator {
-    type Item = ExpressionElement;
-
-    fn next(&mut self) -> Option<Self::Item> {
-        let mut data = HashMap::new();
-        loop {
-            let first_is_kw = self.elements.front().map_or(false, |x| x.1.is_keyword());
-            if first_is_kw {
-                let (l, kw, r) = match self.elements.pop_front() {
-                    Some(Sp(l, Expr::Keyword(kw), r)) => (l, kw, r),
-                    _ => unreachable!(),
-                };
-                if let Some(value) = self.elements.pop_front() {
+fn parse_key_values<I: Iterator<Item = Sp<Expr>>>(
+    iter: &mut itertools::PutBack<I>,
+) -> HashMap<String, Sp<Expr>> {
+    let mut data = HashMap::new();
+    loop {
+        match iter.next() {
+            Some(Sp(l, Expr::Keyword(kw), r)) => match iter.next() {
+                Some(value) => {
                     data.insert(kw, value);
-                } else {
-                    return if data.is_empty() {
-                        Some(ExpressionElement::Single(Sp(l, Expr::Keyword(kw), r)))
-                    } else {
-                        Some(ExpressionElement::KeyValue(data))
-                    };
                 }
-            } else {
-                return if data.is_empty() {
-                    Some(ExpressionElement::Single(self.elements.pop_front()?))
-                } else {
-                    Some(ExpressionElement::KeyValue(data))
-                };
+                None => {
+                    iter.put_back(Sp(l, Expr::Keyword(kw), r));
+                    return data;
+                }
+            },
+            Some(expr) => {
+                iter.put_back(expr);
+                return data;
             }
+            None => return data,
         }
     }
 }
+
+#[cfg(test)]
+mod test {
+
+    use super::*;
+
+    #[test]
+    fn test() {
+        let parser = parser::ExprParser::new();
+        assert_eq!(
+            Element::<Sp<Expr>>::from_expr(
+                parser
+                    .parse("(box foo :bar 12 :baz \"hi\" foo (bar))")
+                    .unwrap()
+            )
+            .unwrap(),
+            Element {
+                name: "box".to_string(),
+                children: vec![
+                    Sp(1, Expr::Symbol("foo".to_string()), 2),
+                    Sp(
+                        2,
+                        Expr::List(vec![Sp(2, Expr::Symbol("bar".to_string()), 3)]),
+                        3
+                    )
+                ],
+                attrs: {
+                    let mut data = HashMap::new();
+                    data.insert("foo".to_string(), Sp(2, Expr::Number(12), 3));
+                    data.insert("bar".to_string(), Sp(2, Expr::Str("hi".to_string()), 3));
+                    data
+                },
+            }
+        );
+    }
+}

src/main.rs

@@ -11,7 +11,7 @@ use lalrpop_util::lalrpop_mod;
 
 //mod lexer;
 
-lalrpop_mod!(pub calc);
+lalrpop_mod!(pub parser);
 
 #[derive(Debug, Eq, PartialEq, Clone, Copy)]
 pub struct Sp<T>(pub usize, pub T, pub usize);
@@ -22,10 +22,10 @@ impl<T: std::fmt::Display> std::fmt::Display for Sp<T> {
     }
 }
 
-#[derive(Debug, Clone, Copy)]
-pub struct WrongExprType;
+#[derive(Debug, Clone)]
+pub struct WrongExprType(Sp<Expr>);
 
-#[derive(Debug)]
+#[derive(Debug, PartialEq, Eq, Clone)]
 pub enum Expr {
     List(Vec<Sp<Expr>>),
     Table(Vec<(Sp<Expr>, Sp<Expr>)>),
@@ -41,7 +41,7 @@ impl Expr {
         use Expr::*;
         match self {
             Str(x) => Ok(x),
-            _ => Err(WrongExprType),
+            x => Err(WrongExprType(x)),
         }
     }
     fn is_keyword(&self) -> bool {
@@ -77,7 +77,7 @@ fn main() {}
 macro_rules! test_p {
     ($e:expr) => {
         let e = $e;
-        let p = calc::ExprParser::new();
+        let p = parser::ExprParser::new();
         match p.parse(e) {
             Ok(res) => println!("{}\n=> {}\n", e, res),
             Err(e) => eprintln!("{}", e),
@@ -86,31 +86,29 @@ macro_rules! test_p {
 }
 
 #[test]
-fn calc() {
-    test_p!("1");
-    test_p!("(12)");
-    test_p!("(1 2)");
-    test_p!("(1 :foo 1)");
-    test_p!("(:foo 1)");
-    test_p!("(:foo->: 1)");
-    test_p!("(foo 1)");
-    test_p!("(lol😄 1)");
+fn test() {
+    //test_p!("1");
+    //test_p!("(12)");
+    //test_p!("(1 2)");
+    //test_p!("(1 :foo 1)");
+    //test_p!("(:foo 1)");
+    //test_p!("(:foo->: 1)");
+    //test_p!("(foo 1)");
+    //test_p!("(lol😄 1)");
 
-    test_p!(r#"(test "hi")"#);
-    test_p!(r#"(test "h\"i")"#);
-    test_p!(r#"(test " hi ")"#);
+    //test_p!(r#"(test "hi")"#);
+    //test_p!(r#"(test "h\"i")"#);
+    //test_p!(r#"(test " hi ")"#);
 
-    test_p!("(+ (1 2 (* 2 5)))");
+    //test_p!("(+ (1 2 (* 2 5)))");
 
-    test_p!(r#"{:key value 12 "hi" (test) (1 2 3)}"#);
+    //test_p!(r#"{:key value 12 "hi" (test) (1 2 3)}"#);
 
-    test_p!(r#"; test"#);
-    test_p!(
-        r#"(f arg ; test
-              arg2)"#
-    );
+    //test_p!(r#"; test"#);
+    //test_p!(
+    //r#"(f arg ; test
+    //arg2)"#
+    //);
 
-    println!("\n\n\n\n\n\n");
-
-    panic!()
+    //println!("\n\n\n\n\n\n");
 }