use std::{ cell::RefCell, collections::HashMap, fmt::Display, hash::Hash, io::Write, mem::discriminant, ops, rc::Rc, vec, }; use rand::Rng; use crate::{ast::Stmt, brian::INSTRUCTION_MAPPINGS, consts}; #[derive(Debug, Clone, Copy, PartialEq, PartialOrd)] pub enum Abool { Never = -1, Sometimes = 0, Always = 1, } impl Display for Abool { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match self { Abool::Never => write!(f, "never"), Abool::Sometimes => write!(f, "sometimes"), Abool::Always => write!(f, "always"), } } } impl From for bool { fn from(val: Abool) -> Self { match val { Abool::Never => false, Abool::Always => true, Abool::Sometimes => rand::thread_rng().gen(), // NOTE(Able): This is amazing and should be applied anywhere abooleans exist } } } #[derive(Debug, PartialEq, Clone, Hash)] pub enum Functio { Bf { instructions: Vec, tape_len: usize, }, Able { params: Vec, body: Vec, }, Builtin(BuiltinFunctio), Chain { functios: Box<(Functio, Functio)>, kind: FunctioChainKind, }, Eval(String), } impl Functio { pub fn arity(&self) -> usize { match self { Functio::Bf { instructions: _, tape_len: _, } => 0, Functio::Able { params, body: _ } => params.len(), Functio::Builtin(b) => b.arity, Functio::Chain { functios, kind: _ } => functios.0.arity() + functios.1.arity(), Functio::Eval(_) => 0, } } } #[derive(Clone)] pub struct BuiltinFunctio { function: Rc>]) -> Result<(), crate::error::ErrorKind>>, arity: usize, } impl BuiltinFunctio { pub fn new(f: F, arity: usize) -> Self where F: Fn(&[Rc>]) -> Result<(), crate::error::ErrorKind> + 'static, { Self { function: Rc::new(f), arity, } } pub fn call(&self, args: &[Rc>]) -> Result<(), crate::error::ErrorKind> { (self.function)(args) } pub fn fn_addr(&self) -> usize { Rc::as_ptr(&self.function) as *const () as _ } } impl std::fmt::Debug for BuiltinFunctio { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { f.debug_struct("BuiltinFunctio") .field("function", &"built-in") .field("arity", &self.arity) .finish() } } impl PartialEq for BuiltinFunctio { fn eq(&self, other: &Self) -> bool { Rc::ptr_eq(&self.function, &other.function) && self.arity == other.arity } } impl Hash for BuiltinFunctio { fn hash(&self, state: &mut H) { self.fn_addr().hash(state); self.arity.hash(state); } } #[derive(Debug, PartialEq, Copy, Clone, Hash)] pub enum FunctioChainKind { Equal, ByArity, } pub type Cart = HashMap>>; #[derive(Debug, Clone)] pub enum Value { Nul, Str(String), Int(isize), Bool(bool), Abool(Abool), Functio(Functio), Cart(Cart), } impl Default for Value { fn default() -> Self { Self::Nul } } impl Hash for Value { fn hash(&self, state: &mut H) { discriminant(self).hash(state); match self { Value::Nul => (), Value::Str(v) => v.hash(state), Value::Int(v) => v.hash(state), Value::Bool(v) => v.hash(state), Value::Abool(v) => v.to_string().hash(state), Value::Functio(statements) => statements.hash(state), Value::Cart(_) => self.to_string().hash(state), } } } impl Value { /// Write an AbleScript value to a Brainfuck input stream by /// coercing the value to an integer, then truncating that integer /// to a single byte, then writing that byte. This should only be /// called on `Write`rs that cannot fail, e.g., `Vec`, because /// any IO errors will cause a panic. pub fn bf_write(&self, stream: &mut impl Write) { stream .write_all(&[self.clone().into_isize() as u8]) .expect("Failed to write to Brainfuck input"); } /// Coerce a value to an integer. pub fn into_isize(self) -> isize { match self { Value::Abool(a) => a as _, Value::Bool(b) => b as _, Value::Functio(f) => match f { Functio::Bf { instructions, tape_len, } => { instructions.into_iter().map(|x| x as isize).sum::() * tape_len as isize } Functio::Able { params, body } => { params .into_iter() .map(|x| x.bytes().map(|x| x as isize).sum::()) .sum::() + body.len() as isize } Functio::Builtin(b) => (b.fn_addr() + b.arity) as _, Functio::Chain { functios, kind } => { let (lf, rf) = *functios; Value::Functio(lf).into_isize() + Value::Functio(rf).into_isize() * match kind { FunctioChainKind::Equal => -1, FunctioChainKind::ByArity => 1, } } Functio::Eval(code) => code.bytes().map(|x| x as isize).sum(), }, Value::Int(i) => i, Value::Nul => consts::ANSWER, Value::Str(text) => text.parse().unwrap_or(consts::ANSWER), Value::Cart(c) => c .into_iter() .map(|(i, v)| i.into_isize() * v.borrow().clone().into_isize()) .sum(), } } /// Coerce a value to a boolean. pub fn into_bool(self) -> bool { match self { Value::Abool(b) => b.into(), Value::Bool(b) => b, Value::Functio(_) => true, Value::Int(x) => x != 0, Value::Nul => false, Value::Str(s) => match s.to_lowercase().as_str() { "false" | "no" | "🇳🇴" => false, "true" | "yes" => true, s => !s.is_empty(), }, Value::Cart(c) => !c.is_empty(), } } /// Coerce a value to an aboolean. pub fn into_abool(self) -> Abool { match self { Value::Nul => Abool::Never, Value::Str(s) => match s.to_lowercase().as_str() { "never" => Abool::Never, "sometimes" => Abool::Sometimes, "always" => Abool::Always, s => { if s.is_empty() { Abool::Never } else { Abool::Always } } }, Value::Int(x) => match x.cmp(&0) { std::cmp::Ordering::Less => Abool::Never, std::cmp::Ordering::Equal => Abool::Sometimes, std::cmp::Ordering::Greater => Abool::Always, }, Value::Bool(b) => { if b { Abool::Always } else { Abool::Never } } Value::Abool(a) => a, Value::Functio(f) => match f { Functio::Bf { instructions, tape_len, } => Value::Int( (instructions.iter().map(|x| *x as usize).sum::() * tape_len) as _, ) .into_abool(), Functio::Able { params, body } => { let str_to_isize = |x: String| -> isize { x.as_bytes().into_iter().map(|x| *x as isize).sum() }; let params: isize = params.into_iter().map(str_to_isize).sum(); let body: isize = body .into_iter() .map(|x| format!("{:?}", x)) .map(str_to_isize) .sum(); Value::Int((params + body) % 3 - 1).into_abool() } Functio::Builtin(b) => Value::Bool(b.fn_addr() % b.arity == 0).into_abool(), Functio::Chain { functios, kind } => { let (lhs, rhs) = *functios; match kind { FunctioChainKind::Equal => { Value::Abool(Value::Functio(lhs).into_abool()) + Value::Abool(Value::Functio(rhs).into_abool()) } FunctioChainKind::ByArity => { Value::Abool(Value::Functio(lhs).into_abool()) * Value::Abool(Value::Functio(rhs).into_abool()) } } .into_abool() } Functio::Eval(code) => Value::Str(code).into_abool(), }, Value::Cart(c) => { if c.is_empty() { Abool::Never } else { Abool::Always } } } } /// Coerce a value to a functio. pub fn into_functio(self) -> Functio { match self { Value::Nul => Functio::Able { body: vec![], params: vec![], }, Value::Str(s) => Functio::Eval(s), Value::Int(i) => Functio::Bf { instructions: { std::iter::successors(Some(i as usize), |i| { Some(i / INSTRUCTION_MAPPINGS.len()) }) .take_while(|&i| i != 0) .map(|i| INSTRUCTION_MAPPINGS[i % INSTRUCTION_MAPPINGS.len()]) .collect() }, tape_len: crate::brian::DEFAULT_TAPE_SIZE_LIMIT, }, Value::Bool(b) => Functio::Eval( if b { r#"loop{"Buy Able products!"print;}"# } else { "" } .to_owned(), ), Value::Abool(a) => Functio::Eval(match a { Abool::Never => "".to_owned(), Abool::Sometimes => { use rand::seq::SliceRandom; let mut str_chars: Vec<_> = "Buy Able Products!".chars().collect(); str_chars.shuffle(&mut rand::thread_rng()); format!(r#""{}"print;"#, str_chars.iter().collect::()) } Abool::Always => r#"loop{"Buy Able products!"print;}"#.to_owned(), }), Value::Functio(f) => f, Value::Cart(c) => { let kind = if let Some(114514) = c .get(&Value::Str("1452251871514141792252515212116".to_owned())) .map(|x| x.borrow().to_owned().into_isize()) { FunctioChainKind::Equal } else { FunctioChainKind::ByArity }; let mut cart_vec = c.iter().collect::>(); cart_vec.sort_by(|x, y| x.0.partial_cmp(y.0).unwrap_or(std::cmp::Ordering::Less)); cart_vec .into_iter() .map(|(_, x)| x.borrow().to_owned().into_functio()) .reduce(|acc, x| Functio::Chain { functios: Box::new((acc, x)), kind, }) .unwrap_or_else(|| Functio::Eval(r#""Buy Able Products!"print;"#.to_owned())) } } } /// Coerce a value into a cart. pub fn into_cart(self) -> Cart { match self { Value::Nul => HashMap::new(), Value::Str(s) => s .chars() .enumerate() .map(|(i, x)| { ( Value::Int(i as isize + 1), Rc::new(RefCell::new(Value::Str(x.to_string()))), ) }) .collect(), Value::Int(i) => Value::Str(i.to_string()).into_cart(), Value::Bool(b) => Value::Str(b.to_string()).into_cart(), Value::Abool(a) => Value::Str(a.to_string()).into_cart(), Value::Functio(f) => match f { Functio::Able { params, body } => { let params: Cart = params .into_iter() .enumerate() .map(|(i, x)| { ( Value::Int(i as isize + 1), Rc::new(RefCell::new(Value::Str(x))), ) }) .collect(); let body: Cart = body .into_iter() .enumerate() .map(|(i, x)| { ( Value::Int(i as isize + 1), Rc::new(RefCell::new(Value::Str(format!("{:?}", x)))), ) }) .collect(); let mut cart = HashMap::new(); cart.insert( Value::Str("params".to_owned()), Rc::new(RefCell::new(Value::Cart(params))), ); cart.insert( Value::Str("body".to_owned()), Rc::new(RefCell::new(Value::Cart(body))), ); cart } Functio::Bf { instructions, tape_len, } => { let mut cart: Cart = instructions .into_iter() .enumerate() .map(|(i, x)| { ( Value::Int(i as isize + 1), Rc::new(RefCell::new( char::from_u32(x as u32) .map(|x| Value::Str(x.to_string())) .unwrap_or(Value::Nul), )), ) }) .collect(); cart.insert( Value::Str("tapelen".to_owned()), Rc::new(RefCell::new(Value::Int(tape_len as _))), ); cart } Functio::Builtin(b) => { let mut cart = HashMap::new(); cart.insert( Value::Str("addr".to_owned()), Rc::new(RefCell::new(Value::Cart( Value::Int(b.fn_addr() as _).into_cart(), ))), ); cart.insert( Value::Str("arity".to_owned()), Rc::new(RefCell::new(Value::Int(b.arity as _))), ); cart } Functio::Chain { functios, kind } => { let (lhs, rhs) = *functios; match kind { FunctioChainKind::Equal => { Value::Cart(Value::Functio(lhs).into_cart()) + Value::Cart(Value::Functio(rhs).into_cart()) } FunctioChainKind::ByArity => { Value::Cart(Value::Functio(lhs).into_cart()) * Value::Cart(Value::Functio(rhs).into_cart()) } } .into_cart() } Functio::Eval(s) => Value::Str(s).into_cart(), }, Value::Cart(c) => c, } } /// Get a lenght of a value pub fn len(&self) -> isize { match self { Value::Nul => 0, Value::Str(s) => s.len() as _, Value::Int(i) => i.count_zeros() as _, Value::Bool(b) if *b => -2, Value::Bool(_) => 2, Value::Abool(a) => match a { Abool::Never => -3, Abool::Sometimes => { if rand::thread_rng().gen() { 3 } else { -3 } } Abool::Always => 3, }, Value::Functio(f) => match f { // Compares lengths of functions: // BfFunctio - Sum of lengths of instructions and length of tape // AbleFunctio - Sum of argument count and body length // Eval - Length of input code Functio::Bf { instructions, tape_len, } => (instructions.len() + tape_len) as _, Functio::Able { params, body } => (params.len() + format!("{:?}", body).len()) as _, Functio::Builtin(b) => (std::mem::size_of_val(b.function.as_ref()) + b.arity) as _, Functio::Chain { functios, kind } => { let (lhs, rhs) = *functios.clone(); match kind { FunctioChainKind::Equal => { Value::Int(Value::Functio(lhs).into_isize()) + Value::Int(Value::Functio(rhs).into_isize()) } FunctioChainKind::ByArity => { Value::Int(Value::Functio(lhs).into_isize()) * Value::Int(Value::Functio(rhs).into_isize()) } } .into_isize() } Functio::Eval(s) => s.len() as _, }, Value::Cart(c) => c.len() as _, } } } impl ops::Add for Value { type Output = Value; fn add(self, rhs: Self) -> Self::Output { match self { Value::Nul => match rhs { Value::Nul => Value::Nul, Value::Str(_) => Value::Str(self.to_string()) + rhs, Value::Int(_) => Value::Int(self.into_isize()) + rhs, Value::Bool(_) => Value::Bool(self.into_bool()) + rhs, Value::Abool(_) => Value::Abool(self.into_abool()) + rhs, Value::Functio(_) => Value::Functio(self.into_functio()) + rhs, Value::Cart(_) => Value::Cart(self.into_cart()) + rhs, }, Value::Str(s) => Value::Str(format!("{}{}", s, rhs.to_string())), Value::Int(i) => Value::Int(i.wrapping_add(rhs.into_isize())), Value::Bool(b) => Value::Bool(b || rhs.into_bool()), Value::Abool(_) => { Value::Abool(Value::Int(self.into_isize().max(rhs.into_isize())).into_abool()) } Value::Functio(f) => Value::Functio(Functio::Chain { functios: Box::new((f, rhs.into_functio())), kind: FunctioChainKind::Equal, }), Value::Cart(c) => { Value::Cart(c.into_iter().chain(rhs.into_cart().into_iter()).collect()) } } } } impl ops::Sub for Value { type Output = Value; fn sub(self, rhs: Self) -> Self::Output { match self { Value::Nul => match rhs { Value::Nul => Value::Nul, Value::Str(_) => Value::Str(self.to_string()) - rhs, Value::Int(_) => Value::Int(self.into_isize()) - rhs, Value::Bool(_) => Value::Bool(self.into_bool()) - rhs, Value::Abool(_) => Value::Abool(self.into_abool()) - rhs, Value::Functio(_) => Value::Functio(self.into_functio()) - rhs, Value::Cart(_) => Value::Cart(self.into_cart()) - rhs, }, Value::Str(s) => Value::Str(s.replace(&rhs.to_string(), "")), Value::Int(i) => Value::Int(i.wrapping_sub(rhs.into_isize())), Value::Bool(b) => Value::Bool(b ^ rhs.into_bool()), Value::Abool(_) => (self.clone() + rhs.clone()) * !(self * rhs), Value::Functio(f) => Value::Functio(match f { Functio::Bf { instructions: lhs_ins, tape_len: lhs_tl, } => match rhs.into_functio() { Functio::Bf { instructions: rhs_ins, tape_len: rhs_tl, } => Functio::Bf { instructions: lhs_ins .into_iter() .zip(rhs_ins.into_iter()) .filter_map(|(l, r)| if l != r { Some(l) } else { None }) .collect(), tape_len: lhs_tl - rhs_tl, }, rhs => Functio::Bf { instructions: lhs_ins .into_iter() .zip(Value::Functio(rhs).to_string().bytes()) .filter_map(|(l, r)| if l != r { Some(l) } else { None }) .collect(), tape_len: lhs_tl, }, }, Functio::Able { params: lhs_params, body: lhs_body, } => match rhs.into_functio() { Functio::Able { params: rhs_params, body: rhs_body, } => Functio::Able { params: lhs_params .into_iter() .zip(rhs_params.into_iter()) .filter_map(|(l, r)| if l != r { Some(l) } else { None }) .collect(), body: lhs_body .into_iter() .zip(rhs_body.into_iter()) .filter_map(|(l, r)| if l != r { Some(l) } else { None }) .collect(), }, rhs => Value::Int( Value::Functio(Functio::Able { params: lhs_params, body: lhs_body, }) .into_isize() - Value::Functio(rhs).into_isize(), ) .into_functio(), }, Functio::Builtin(b) => { let arity = b.arity; let resulting_arity = arity.saturating_sub(rhs.into_isize() as usize); Functio::Builtin(BuiltinFunctio::new( move |args| { b.call( &args .iter() .cloned() .take(resulting_arity) .chain(std::iter::repeat_with(|| { Rc::new(RefCell::new(Value::Nul)) })) .take(arity) .collect::>(), ) }, resulting_arity, )) } Functio::Chain { functios, .. } => { let rhs = rhs.into_functio(); let (a, b) = *functios; match (a == rhs, b == rhs) { (_, true) => a, (true, _) => b, (_, _) => (Value::Functio(a) - Value::Functio(rhs)).into_functio(), } } Functio::Eval(lhs_code) => Functio::Eval(lhs_code.replace( &match rhs.into_functio() { Functio::Eval(code) => code, rhs => Value::Functio(rhs).to_string(), }, "", )), }), Value::Cart(c) => Value::Cart({ let rhs_cart = rhs.into_cart(); c.into_iter() .filter(|(k, v)| rhs_cart.get(k) != Some(v)) .collect() }), } } } impl ops::Mul for Value { type Output = Value; fn mul(self, rhs: Self) -> Self::Output { match self { Value::Nul => match rhs { Value::Nul => Value::Nul, Value::Str(_) => Value::Str(self.to_string()) * rhs, Value::Int(_) => Value::Int(self.into_isize()) * rhs, Value::Bool(_) => Value::Bool(self.into_bool()) * rhs, Value::Abool(_) => Value::Abool(self.into_abool()) * rhs, Value::Functio(_) => Value::Functio(self.into_functio()) * rhs, Value::Cart(_) => Value::Cart(self.into_cart()) * rhs, }, Value::Str(s) => Value::Str(s.repeat(rhs.into_isize() as usize)), Value::Int(i) => Value::Int(i.wrapping_mul(rhs.into_isize())), Value::Bool(b) => Value::Bool(b && rhs.into_bool()), Value::Abool(_) => { Value::Abool(Value::Int(self.into_isize().min(rhs.into_isize())).into_abool()) } Value::Functio(f) => Value::Functio(Functio::Chain { functios: Box::new((f, rhs.into_functio())), kind: FunctioChainKind::ByArity, }), Value::Cart(c) => { let rhsc = rhs.into_cart(); Value::Cart( c.into_iter() .map(|(k, v)| { if let Some(k) = rhsc.get(&k) { (k.borrow().clone(), v) } else { (k, v) } }) .collect(), ) } } } } impl ops::Div for Value { type Output = Value; fn div(self, rhs: Self) -> Self::Output { match self { Value::Nul => match rhs { Value::Nul => Value::Nul, Value::Str(_) => Value::Str(self.to_string()) / rhs, Value::Int(_) => Value::Int(self.into_isize()) / rhs, Value::Bool(_) => Value::Bool(self.into_bool()) / rhs, Value::Abool(_) => Value::Abool(self.into_abool()) / rhs, Value::Functio(_) => Value::Functio(self.into_functio()) / rhs, Value::Cart(_) => Value::Cart(self.into_cart()) / rhs, }, Value::Str(s) => Value::Cart( s.split(&rhs.to_string()) .enumerate() .map(|(i, x)| { ( Value::Int(i as isize + 1), Rc::new(RefCell::new(Value::Str(x.to_owned()))), ) }) .collect(), ), Value::Int(i) => Value::Int(i.wrapping_div(match rhs.into_isize() { 0 => consts::ANSWER, x => x, })), Value::Bool(b) => Value::Bool(!b || rhs.into_bool()), Value::Abool(_) => !self + rhs, Value::Functio(f) => Value::Functio(match f { Functio::Bf { instructions, tape_len, } => { let fraction = 1.0 / rhs.into_isize() as f64; let len = instructions.len(); Functio::Bf { instructions: instructions .into_iter() .take((len as f64 * fraction) as usize) .collect(), tape_len, } } Functio::Able { params, body } => { let fraction = 1.0 / rhs.into_isize() as f64; let len = body.len(); Functio::Able { params, body: body .into_iter() .take((len as f64 * fraction) as usize) .collect(), } } Functio::Builtin(b) => Functio::Builtin(BuiltinFunctio { arity: b.arity + rhs.into_isize() as usize, ..b }), Functio::Chain { functios, kind } => { let functios = *functios; Functio::Chain { functios: Box::new(( (Value::Functio(functios.0) / rhs.clone()).into_functio(), (Value::Functio(functios.1) / rhs).into_functio(), )), kind, } } Functio::Eval(s) => { let fraction = 1.0 / rhs.into_isize() as f64; let len = s.len(); Functio::Eval(s.chars().take((len as f64 * fraction) as usize).collect()) } }), Value::Cart(c) => { let cart_len = c.len(); let chunk_len = rhs.into_isize() as usize; Value::Cart( c.into_iter() .collect::>() .chunks(cart_len / chunk_len + (cart_len % chunk_len != 0) as usize) .enumerate() .map(|(k, v)| { ( Value::Int(k as isize + 1), Rc::new(RefCell::new(Value::Cart(v.iter().cloned().collect()))), ) }) .collect(), ) } } } } impl ops::Not for Value { type Output = Value; fn not(self) -> Self::Output { match self { Value::Nul => Value::Nul, Value::Str(s) => Value::Str(s.chars().rev().collect()), Value::Int(i) => Value::Int(i.swap_bytes()), Value::Bool(b) => Value::Bool(!b), Value::Abool(a) => Value::Abool(match a { Abool::Never => Abool::Always, Abool::Sometimes => Abool::Sometimes, Abool::Always => Abool::Never, }), Value::Functio(f) => Value::Functio(match f { Functio::Bf { mut instructions, tape_len, } => { instructions.reverse(); Functio::Bf { instructions, tape_len, } } Functio::Able { mut params, mut body, } => { params.reverse(); body.reverse(); Functio::Able { params, body } } Functio::Builtin(b) => { let arity = b.arity; Functio::Builtin(BuiltinFunctio::new( move |args| b.call(&args.iter().cloned().rev().collect::>()), arity, )) } Functio::Chain { functios, kind } => { let (a, b) = *functios; Functio::Chain { functios: Box::new(( (!Value::Functio(b)).into_functio(), (!Value::Functio(a)).into_functio(), )), kind, } } Functio::Eval(code) => Functio::Eval(code.chars().rev().collect()), }), Value::Cart(c) => Value::Cart( c.into_iter() .map(|(k, v)| (v.borrow().clone(), Rc::new(RefCell::new(k)))) .collect(), ), } } } impl PartialEq for Value { fn eq(&self, other: &Self) -> bool { let other = other.clone(); match self { Value::Nul => matches!(other, Value::Nul), Value::Str(s) => *s == other.to_string(), Value::Int(i) => *i == other.into_isize(), Value::Bool(b) => *b == other.into_bool(), Value::Abool(a) => *a == other.into_abool(), Value::Functio(f) => *f == other.into_functio(), Value::Cart(c) => *c == other.into_cart(), } } } impl Eq for Value {} impl PartialOrd for Value { fn partial_cmp(&self, other: &Self) -> Option { use std::cmp::Ordering::*; let other = other.clone(); match self { Value::Nul => { if other == Value::Nul { Some(Equal) } else { None } } Value::Str(s) => Some(s.cmp(&other.to_string())), Value::Int(i) => Some(i.cmp(&other.into_isize())), Value::Bool(b) => Some(b.cmp(&other.into_bool())), Value::Abool(a) => a.partial_cmp(&other.into_abool()), Value::Functio(_) => self.clone().into_isize().partial_cmp(&other.into_isize()), Value::Cart(c) => Some(c.len().cmp(&other.into_cart().len())), } } } impl Display for Value { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match self { Value::Nul => write!(f, "nul"), Value::Str(v) => write!(f, "{}", v), Value::Int(v) => write!(f, "{}", v), Value::Bool(v) => write!(f, "{}", v), Value::Abool(v) => write!(f, "{}", v), Value::Functio(v) => match v { Functio::Bf { instructions, tape_len, } => { write!( f, "({}) {}", tape_len, String::from_utf8(instructions.to_owned()) .expect("Brainfuck functio source should be UTF-8") ) } Functio::Able { params, body } => { write!( f, "({}) -> {:?}", params.join(", "), // Maybe we should have a pretty-printer for // statement blocks at some point? body, ) } Functio::Builtin(b) => write!(f, "builtin @ {}", b.fn_addr()), Functio::Chain { functios, kind } => { let (a, b) = *functios.clone(); write!( f, "{} {} {} ", Value::Functio(a), match kind { FunctioChainKind::Equal => '+', FunctioChainKind::ByArity => '*', }, Value::Functio(b) ) } Functio::Eval(s) => write!(f, "{}", s), }, Value::Cart(c) => { write!(f, "[")?; let mut cart_vec = c.iter().collect::>(); cart_vec.sort_by(|x, y| x.0.partial_cmp(y.0).unwrap_or(std::cmp::Ordering::Less)); for (idx, (key, value)) in cart_vec.into_iter().enumerate() { write!( f, "{}{} <= {}", if idx != 0 { ", " } else { "" }, value.borrow(), key )?; } write!(f, "]") } } } } #[derive(Debug)] pub struct Variable { pub melo: bool, // Multiple Variables can reference the same underlying Value when // pass-by-reference is used, therefore we use Rc here. pub value: Rc>, }