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dust/dust-lang/src/value.rs

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Rust
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//! Dust value representation
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use std::{
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cmp::Ordering,
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collections::HashMap,
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error::Error,
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fmt::{self, Display, Formatter},
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ops::{Range, RangeInclusive},
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sync::{Arc, RwLock},
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};
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use serde::{de::Visitor, ser::SerializeMap, Deserialize, Deserializer, Serialize, Serializer};
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use crate::{
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AbstractSyntaxTree, BuiltInFunction, BuiltInFunctionError, Context, ContextError, EnumType,
FunctionType, Identifier, RangeableType, RuntimeError, StructType, Type, Vm,
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};
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/// Dust value representation
///
/// Each type of value has a corresponding constructor, here are some simple examples:
///
/// ```
/// # use dust_lang::Value;
/// let boolean = Value::boolean(true);
/// let float = Value::float(3.14);
/// let integer = Value::integer(42);
/// let string = Value::string("Hello, world!");
/// ```
///
/// Values can be combined into more complex values:
///
/// ```
/// # use dust_lang::Value;
/// let list = Value::list(vec![
/// Value::integer(1),
/// Value::integer(2),
/// Value::integer(3),
/// ]);
/// ```
///
/// Values have a type, which can be retrieved using the `type` method:
///
/// ```
/// # use std::collections::HashMap;
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/// # use dust_lang::*;
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/// let value = Value::integer(42);
///
/// assert_eq!(value.r#type(), Type::Integer);
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/// ```
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#[derive(Clone, Debug)]
pub enum Value {
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Boolean(bool),
Byte(u8),
Character(char),
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Enum(Enum),
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Float(f64),
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Function(Function),
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Integer(i64),
List(Vec<Value>),
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Map(HashMap<Identifier, Value>),
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Mutable(Arc<RwLock<Value>>),
Range(Range<Rangeable>),
RangeInclusive(RangeInclusive<Rangeable>),
String(String),
Struct(Struct),
Tuple(Vec<Value>),
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}
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impl Value {
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pub fn map<T: Into<HashMap<Identifier, Value>>>(pairs: T) -> Value {
Value::Map(pairs.into())
}
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pub fn mutable(value: Value) -> Value {
Value::Mutable(Arc::new(RwLock::new(value)))
}
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pub fn mutable_from<T: Into<Value>>(into_value: T) -> Value {
Value::Mutable(Arc::new(RwLock::new(into_value.into())))
}
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pub fn range<T: Into<Rangeable>>(start: T, end: T) -> Value {
Value::Range(start.into()..end.into())
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}
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pub fn range_inclusive<T: Into<Rangeable>>(start: T, end: T) -> Value {
Value::RangeInclusive(start.into()..=end.into())
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}
pub fn string<T: ToString>(to_string: T) -> Value {
Value::String(to_string.to_string())
}
pub fn as_boolean(&self) -> Option<bool> {
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match self {
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Value::Boolean(value) => Some(*value),
Value::Mutable(locked) => locked.read().unwrap().as_boolean(),
_ => None,
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}
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}
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pub fn as_byte(&self) -> Option<u8> {
match self {
Value::Byte(value) => Some(*value),
Value::Mutable(locked) => locked.read().unwrap().as_byte(),
_ => None,
}
}
pub fn as_character(&self) -> Option<char> {
match self {
Value::Character(value) => Some(*value),
Value::Mutable(locked) => locked.read().unwrap().as_character(),
_ => None,
}
}
pub fn as_float(&self) -> Option<f64> {
match self {
Value::Float(value) => Some(*value),
Value::Mutable(locked) => locked.read().unwrap().as_float(),
_ => None,
}
}
pub fn as_integer(&self) -> Option<i64> {
match self {
Value::Integer(value) => Some(*value),
Value::Mutable(locked) => locked.read().unwrap().as_integer(),
_ => None,
}
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}
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pub fn as_mutable(&self) -> Result<&Arc<RwLock<Value>>, ValueError> {
match self {
Value::Mutable(inner) => Ok(inner),
_ => Err(ValueError::CannotMutate(self.clone())),
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}
}
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pub fn into_mutable(self) -> Value {
match self {
Value::Mutable(_) => self,
immutable => Value::Mutable(Arc::new(RwLock::new(immutable))),
}
}
pub fn is_mutable(&self) -> bool {
matches!(self, Value::Mutable(_))
}
pub fn mutate(&self, other: Value) -> Result<(), ValueError> {
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match self {
Value::Mutable(inner) => *inner.write().unwrap() = other,
_ => return Err(ValueError::CannotMutate(self.clone())),
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};
Ok(())
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}
pub fn r#type(&self) -> Type {
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match self {
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Value::Boolean(_) => Type::Boolean,
Value::Byte(_) => Type::Byte,
Value::Character(_) => Type::Character,
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Value::Enum(Enum { r#type, .. }) => Type::Enum(r#type.clone()),
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Value::Float(_) => Type::Float,
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Value::Function(Function::BuiltIn(built_in_function)) => Type::Function(FunctionType {
name: Identifier::new(built_in_function.name()),
type_parameters: built_in_function.type_parameters(),
value_parameters: built_in_function.value_parameters(),
return_type: built_in_function.return_type().map(Box::new),
}),
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Value::Function(Function::Parsed { r#type, .. }) => Type::Function(r#type.clone()),
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Value::Integer(_) => Type::Integer,
Value::List(values) => {
let item_type = values.first().unwrap().r#type();
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Type::List {
item_type: Box::new(item_type),
length: values.len(),
}
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}
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Value::Map(map) => {
let pairs = map
.iter()
.map(|(key, value)| (key.clone(), value.r#type()))
.collect();
Type::Map { pairs }
}
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Value::Mutable(locked) => locked.read().unwrap().r#type(),
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Value::Range(range) => Type::Range {
r#type: range.start.r#type(),
},
Value::RangeInclusive(range_inclusive) => {
let rangeable_type = range_inclusive.start().r#type();
Type::Range {
r#type: rangeable_type,
}
}
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Value::String(string) => Type::String {
length: Some(string.len()),
},
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Value::Struct(r#struct) => match r#struct {
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Struct::Unit { name } => Type::Struct(StructType::Unit { name: name.clone() }),
Struct::Tuple { name, fields } => {
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let types = fields.iter().map(|field| field.r#type()).collect();
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Type::Struct(StructType::Tuple {
name: name.clone(),
fields: types,
})
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}
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Struct::Fields { name, fields } => {
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let types = fields
.iter()
.map(|(identifier, value)| (identifier.clone(), value.r#type()))
.collect();
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Type::Struct(StructType::Fields {
name: name.clone(),
fields: types,
})
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}
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},
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Value::Tuple(values) => {
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let fields = values.iter().map(|value| value.r#type()).collect();
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Type::Tuple(fields)
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}
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}
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}
pub fn get_field(&self, field: &Identifier) -> Option<Value> {
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let built_in_function = match field.as_str() {
"to_string" => BuiltInFunction::ToString,
"length" => {
return match self {
Value::List(values) => Some(Value::Integer(values.len() as i64)),
Value::String(string) => Some(Value::Integer(string.len() as i64)),
Value::Map(map) => Some(Value::Integer(map.len() as i64)),
_ => None,
}
}
_ => {
return match self {
Value::Mutable(inner) => inner.read().unwrap().get_field(field),
Value::Struct(Struct::Fields { fields, .. }) => fields.get(field).cloned(),
Value::Map(pairs) => pairs.get(field).cloned(),
_ => None,
};
}
};
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Some(Value::Function(Function::BuiltIn(built_in_function)))
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}
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pub fn get_index(&self, index: Value) -> Result<Option<Value>, ValueError> {
match (self, index) {
(Value::Mutable(left), Value::Mutable(right)) => {
return left
.read()
.unwrap()
.get_index(right.read().unwrap().clone());
}
(Value::Mutable(locked), index) => {
return locked.read().unwrap().get_index(index);
}
(left, Value::Mutable(locked)) => {
return left.get_index(locked.read().unwrap().clone());
}
(Value::List(values), Value::Integer(integer)) => {
let index = integer as usize;
return Ok(values.get(index).cloned());
}
(Value::List(values), Value::Range(range)) => match (range.start, range.end) {
(Rangeable::Integer(start), Rangeable::Integer(end)) => {
let start = start as usize;
let end = end as usize;
return Ok(values
.get(start..end)
.map(|values| Value::List(values.to_vec())));
}
(start, end) => Err(ValueError::CannotIndex {
value: self.clone(),
index: Value::Range(start..end),
}),
},
(Value::String(string), Value::Range(range)) => match (range.start, range.end) {
(Rangeable::Integer(start), Rangeable::Integer(end)) => {
let start = start as usize;
let end = end as usize;
return Ok(string.get(start..end).map(Value::string));
}
(start, end) => Err(ValueError::CannotIndex {
value: self.clone(),
index: Value::Range(start..end),
}),
},
(Value::Range(range), Value::Integer(index)) => match (range.start, range.end) {
(Rangeable::Integer(start), Rangeable::Integer(end)) => {
Ok((start..end).nth(index as usize).map(Value::Integer))
}
(start, end) => Err(ValueError::CannotIndex {
value: self.clone(),
index: Value::Range(start..end),
}),
},
(Value::String(string), Value::Integer(integer)) => {
let index = integer as usize;
return Ok(string.chars().nth(index).map(Value::Character));
}
(value, index) => Err(ValueError::CannotIndex {
value: value.clone(),
index,
}),
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}
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}
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pub fn add(&self, other: &Value) -> Result<Value, ValueError> {
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match (self, other) {
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(Value::Float(left), Value::Float(right)) => Ok(Value::Float(left + right)),
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(Value::Integer(left), Value::Integer(right)) => {
Ok(Value::Integer(left.saturating_add(*right)))
}
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(Value::String(left), Value::String(right)) => {
Ok(Value::String(format!("{}{}", left, right)))
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}
(Value::Mutable(left), Value::Mutable(right)) => {
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let left = left.read().unwrap();
let right = right.read().unwrap();
left.add(&right)
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}
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(Value::Mutable(left), right) => {
let left = left.read().unwrap();
left.add(right)
}
(left, Value::Mutable(right)) => {
let right = right.read().unwrap();
left.add(&right)
}
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_ => Err(ValueError::CannotAdd(self.clone(), other.clone())),
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}
}
pub fn add_assign(&self, other: &Value) -> Result<(), ValueError> {
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match (self, other) {
(Value::Mutable(left), Value::Mutable(right)) => {
match (&mut *left.write().unwrap(), &*right.read().unwrap()) {
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(Value::Float(left), Value::Float(right)) => {
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*left += right;
return Ok(());
}
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(Value::Integer(left), Value::Integer(right)) => {
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*left = left.saturating_add(*right);
return Ok(());
}
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(Value::String(left), Value::String(right)) => {
(*left).push_str(right);
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return Ok(());
}
_ => {}
}
}
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(Value::Mutable(left), right) => match (&mut *left.write().unwrap(), right) {
(Value::Float(left), Value::Float(right)) => {
*left += right;
return Ok(());
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}
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(Value::Integer(left), Value::Integer(right)) => {
*left = left.saturating_add(*right);
return Ok(());
}
(Value::String(left), Value::String(right)) => {
left.push_str(right);
return Ok(());
}
_ => {}
},
_ => {}
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}
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Err(ValueError::CannotMutate(self.clone()))
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}
pub fn subtract(&self, other: &Value) -> Result<Value, ValueError> {
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match (self, other) {
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(Value::Float(left), Value::Float(right)) => Ok(Value::Float(left - right)),
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(Value::Integer(left), Value::Integer(right)) => {
Ok(Value::Integer(left.saturating_sub(*right)))
}
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(Value::Mutable(left), Value::Mutable(right)) => {
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let left = left.read().unwrap();
let right = right.read().unwrap();
left.subtract(&right)
}
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(Value::Mutable(left), right) => {
let left = left.read().unwrap();
left.subtract(right)
}
(left, Value::Mutable(right)) => {
let right = right.read().unwrap();
left.subtract(&right)
}
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_ => Err(ValueError::CannotSubtract(self.clone(), other.clone())),
}
}
pub fn subtract_assign(&self, other: &Value) -> Result<(), ValueError> {
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match (self, other) {
(Value::Mutable(left), Value::Mutable(right)) => {
match (&mut *left.write().unwrap(), &*right.read().unwrap()) {
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(Value::Float(left), Value::Float(right)) => {
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*left -= right;
return Ok(());
}
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(Value::Integer(left), Value::Integer(right)) => {
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*left = left.saturating_sub(*right);
return Ok(());
}
_ => {}
}
}
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(Value::Mutable(left), right) => match (&mut *left.write().unwrap(), right) {
(Value::Float(left), Value::Float(right)) => {
*left -= right;
return Ok(());
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}
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(Value::Integer(left), Value::Integer(right)) => {
*left = left.saturating_sub(*right);
return Ok(());
}
_ => {}
},
_ => {}
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}
Err(ValueError::CannotSubtract(self.clone(), other.clone()))
}
pub fn multiply(&self, other: &Value) -> Result<Value, ValueError> {
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match (self, other) {
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(Value::Float(left), Value::Float(right)) => Ok(Value::Float(left * right)),
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(Value::Integer(left), Value::Integer(right)) => {
Ok(Value::Integer(left.saturating_mul(*right)))
}
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(Value::Mutable(left), Value::Mutable(right)) => {
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let left = left.read().unwrap();
let right = right.read().unwrap();
left.multiply(&right)
}
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(Value::Mutable(left), right) => {
let left = left.read().unwrap();
left.multiply(right)
}
(left, Value::Mutable(right)) => {
let right = right.read().unwrap();
left.multiply(&right)
}
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_ => Err(ValueError::CannotMultiply(self.clone(), other.clone())),
}
}
pub fn multiply_assign(&self, other: &Value) -> Result<(), ValueError> {
match (self, other) {
(Value::Mutable(left), Value::Mutable(right)) => {
match (&mut *left.write().unwrap(), &*right.read().unwrap()) {
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(Value::Float(left), Value::Float(right)) => {
*left *= right;
return Ok(());
}
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(Value::Integer(left), Value::Integer(right)) => {
*left = left.saturating_mul(*right);
return Ok(());
}
_ => {}
}
}
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(Value::Mutable(left), right) => match (&mut *left.write().unwrap(), right) {
(Value::Float(left), Value::Float(right)) => {
*left *= right;
return Ok(());
}
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(Value::Integer(left), Value::Integer(right)) => {
*left = left.saturating_mul(*right);
return Ok(());
}
_ => {}
},
_ => {}
}
Err(ValueError::CannotMultiply(self.clone(), other.clone()))
}
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pub fn divide(&self, other: &Value) -> Result<Value, ValueError> {
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match (self, other) {
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(Value::Float(left), Value::Float(right)) => Ok(Value::Float(left / right)),
(Value::Integer(left), Value::Integer(right)) => {
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Ok(Value::Integer(left.saturating_div(*right)))
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}
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(Value::Mutable(left), Value::Mutable(right)) => {
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let left = left.read().unwrap();
let right = right.read().unwrap();
left.divide(&right)
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}
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(Value::Mutable(left), right) => {
let left = left.read().unwrap();
left.divide(right)
}
(left, Value::Mutable(right)) => {
let right = right.read().unwrap();
left.divide(&right)
}
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_ => Err(ValueError::CannotDivide(self.clone(), other.clone())),
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}
}
pub fn divide_assign(&self, other: &Value) -> Result<(), ValueError> {
match (self, other) {
(Value::Mutable(left), Value::Mutable(right)) => {
match (&mut *left.write().unwrap(), &*right.read().unwrap()) {
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(Value::Float(left), Value::Float(right)) => {
*left /= right;
return Ok(());
}
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(Value::Integer(left), Value::Integer(right)) => {
*left = (*left as f64 / *right as f64) as i64;
return Ok(());
}
_ => {}
}
}
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(Value::Mutable(left), right) => match (&mut *left.write().unwrap(), right) {
(Value::Float(left), Value::Float(right)) => {
*left /= right;
return Ok(());
}
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(Value::Integer(left), Value::Integer(right)) => {
*left = (*left as f64 / *right as f64) as i64;
return Ok(());
}
_ => {}
},
_ => {}
}
Err(ValueError::CannotDivide(self.clone(), other.clone()))
}
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pub fn modulo(&self, other: &Value) -> Result<Value, ValueError> {
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match (self, other) {
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(Value::Float(left), Value::Float(right)) => Ok(Value::Float(left % right)),
(Value::Integer(left), Value::Integer(right)) => Ok(Value::Integer(left % right)),
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(Value::Mutable(left), Value::Mutable(right)) => {
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let left = left.read().unwrap();
let right = right.read().unwrap();
left.modulo(&right)
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}
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(Value::Mutable(left), right) => {
let left = left.read().unwrap();
left.modulo(right)
}
(left, Value::Mutable(right)) => {
let right = right.read().unwrap();
left.modulo(&right)
}
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_ => Err(ValueError::CannotModulo(self.clone(), other.clone())),
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}
}
pub fn modulo_assign(&self, other: &Value) -> Result<(), ValueError> {
match (self, other) {
(Value::Mutable(left), Value::Mutable(right)) => {
match (&mut *left.write().unwrap(), &*right.read().unwrap()) {
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(Value::Float(left), Value::Float(right)) => {
*left %= right;
return Ok(());
}
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(Value::Integer(left), Value::Integer(right)) => {
*left %= right;
return Ok(());
}
_ => {}
}
}
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(Value::Mutable(left), right) => match (&mut *left.write().unwrap(), right) {
(Value::Float(left), Value::Float(right)) => {
*left %= right;
return Ok(());
}
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(Value::Integer(left), Value::Integer(right)) => {
*left %= right;
return Ok(());
}
_ => {}
},
_ => {}
}
Err(ValueError::CannotModulo(self.clone(), other.clone()))
}
pub fn equal(&self, other: &Value) -> Value {
let is_equal = match (self, other) {
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(Value::Boolean(left), Value::Boolean(right)) => left == right,
(Value::Byte(left), Value::Byte(right)) => left == right,
(Value::Character(left), Value::Character(right)) => left == right,
(Value::Float(left), Value::Float(right)) => left == right,
(Value::Function(left), Value::Function(right)) => left == right,
(Value::Integer(left), Value::Integer(right)) => left == right,
(Value::List(left), Value::List(right)) => {
if left.len() != right.len() {
return Value::Boolean(false);
}
for (left, right) in left.iter().zip(right.iter()) {
if let Value::Boolean(false) = left.equal(right) {
return Value::Boolean(false);
}
}
true
}
(Value::Range(left), Value::Range(right)) => {
left.start == right.start && left.end == right.end
}
(Value::RangeInclusive(left), Value::RangeInclusive(right)) => {
left.start() == right.start() && left.end() == right.end()
}
(Value::String(left), Value::String(right)) => left == right,
(Value::Struct(left), Value::Struct(right)) => left == right,
(Value::Mutable(left), Value::Mutable(right)) => {
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let left = left.read().unwrap();
let right = right.read().unwrap();
return left.equal(&right);
}
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(Value::Mutable(locked), immutable) | (immutable, Value::Mutable(locked)) => {
let locked = locked.read().unwrap();
return locked.equal(immutable);
}
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_ => false,
};
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Value::Boolean(is_equal)
}
pub fn not_equal(&self, other: &Value) -> Value {
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if let Value::Boolean(is_equal) = self.equal(other) {
Value::Boolean(!is_equal)
} else {
Value::Boolean(true)
}
}
pub fn less_than(&self, other: &Value) -> Result<Value, ValueError> {
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match (self, other) {
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(Value::Float(left), Value::Float(right)) => Ok(Value::Boolean(left < right)),
(Value::Integer(left), Value::Integer(right)) => Ok(Value::Boolean(left < right)),
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(Value::Float(left), Value::Integer(right)) => {
Ok(Value::Boolean(*left < *right as f64))
}
(Value::Integer(left), Value::Float(right)) => {
Ok(Value::Boolean((*left as f64) < *right))
}
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(Value::Mutable(left), Value::Mutable(right)) => {
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let left = left.read().unwrap();
let right = right.read().unwrap();
left.less_than(&right)
}
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(Value::Mutable(left), right) => {
let left = left.read().unwrap();
left.less_than(right)
}
(left, Value::Mutable(right)) => {
let right = right.read().unwrap();
left.less_than(&right)
}
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_ => Err(ValueError::CannotLessThan(self.clone(), other.clone())),
}
}
pub fn less_than_or_equal(&self, other: &Value) -> Result<Value, ValueError> {
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match (self, other) {
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(Value::Float(left), Value::Float(right)) => Ok(Value::Boolean(left <= right)),
(Value::Integer(left), Value::Integer(right)) => Ok(Value::Boolean(left <= right)),
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(Value::Float(left), Value::Integer(right)) => {
Ok(Value::Boolean(*left <= *right as f64))
}
(Value::Integer(left), Value::Float(right)) => {
Ok(Value::Boolean(*left as f64 <= *right))
}
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(Value::Mutable(left), Value::Mutable(right)) => {
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let left = left.read().unwrap();
let right = right.read().unwrap();
left.less_than_or_equal(&right)
}
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(Value::Mutable(left), right) => {
let left = left.read().unwrap();
left.less_than_or_equal(right)
}
(left, Value::Mutable(right)) => {
let right = right.read().unwrap();
left.less_than_or_equal(&right)
}
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_ => Err(ValueError::CannotLessThanOrEqual(
self.clone(),
other.clone(),
)),
}
}
pub fn greater_than(&self, other: &Value) -> Result<Value, ValueError> {
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match (self, other) {
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(Value::Float(left), Value::Float(right)) => Ok(Value::Boolean(left > right)),
(Value::Integer(left), Value::Integer(right)) => Ok(Value::Boolean(left > right)),
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(Value::Float(left), Value::Integer(right)) => {
Ok(Value::Boolean(*left > *right as f64))
}
(Value::Integer(left), Value::Float(right)) => {
Ok(Value::Boolean(*left as f64 > *right))
}
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(Value::Mutable(left), Value::Mutable(right)) => {
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let left = left.read().unwrap();
let right = right.read().unwrap();
left.greater_than(&right)
}
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(Value::Mutable(left), right) => {
let left = left.read().unwrap();
left.greater_than(right)
}
(left, Value::Mutable(right)) => {
let right = right.read().unwrap();
left.greater_than(&right)
}
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_ => Err(ValueError::CannotGreaterThan(self.clone(), other.clone())),
}
}
pub fn greater_than_or_equal(&self, other: &Value) -> Result<Value, ValueError> {
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match (self, other) {
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(Value::Float(left), Value::Float(right)) => Ok(Value::Boolean(left >= right)),
(Value::Integer(left), Value::Integer(right)) => Ok(Value::Boolean(left >= right)),
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(Value::Float(left), Value::Integer(right)) => {
Ok(Value::Boolean(*left >= *right as f64))
}
(Value::Integer(left), Value::Float(right)) => {
Ok(Value::Boolean(*left as f64 >= *right))
}
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(Value::Mutable(left), Value::Mutable(right)) => {
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let left = left.read().unwrap();
let right = right.read().unwrap();
left.greater_than_or_equal(&right)
}
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(Value::Mutable(left), right) => {
let left = left.read().unwrap();
left.greater_than_or_equal(right)
}
(left, Value::Mutable(right)) => {
let right = right.read().unwrap();
left.greater_than_or_equal(&right)
}
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_ => Err(ValueError::CannotGreaterThanOrEqual(
self.clone(),
other.clone(),
)),
}
}
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pub fn and(&self, other: &Value) -> Result<Value, ValueError> {
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match (self, other) {
(Value::Boolean(left), Value::Boolean(right)) => Ok(Value::Boolean(*left && *right)),
(Value::Mutable(locked), value) | (value, Value::Mutable(locked)) => {
let locked = locked.read().unwrap();
locked.and(value)
}
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_ => Err(ValueError::CannotAnd(self.clone(), other.clone())),
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}
}
pub fn or(&self, other: &Value) -> Result<Value, ValueError> {
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match (self, other) {
(Value::Boolean(left), Value::Boolean(right)) => Ok(Value::Boolean(*left || *right)),
(Value::Mutable(locked), value) | (value, Value::Mutable(locked)) => {
let locked = locked.read().unwrap();
locked.or(value)
}
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_ => Err(ValueError::CannotOr(self.clone(), other.clone())),
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}
}
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}
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impl From<bool> for Value {
fn from(value: bool) -> Self {
Value::Boolean(value)
}
}
impl From<u8> for Value {
fn from(value: u8) -> Self {
Value::Byte(value)
}
}
impl From<char> for Value {
fn from(value: char) -> Self {
Value::Character(value)
}
}
impl From<f64> for Value {
fn from(value: f64) -> Self {
Value::Float(value)
}
}
impl From<i32> for Value {
fn from(value: i32) -> Self {
Value::Integer(value as i64)
}
}
impl From<i64> for Value {
fn from(value: i64) -> Self {
Value::Integer(value)
}
}
impl From<String> for Value {
fn from(value: String) -> Self {
Value::String(value)
}
}
impl From<&str> for Value {
fn from(value: &str) -> Self {
Value::String(value.to_string())
}
}
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impl Display for Value {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
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match self {
Value::Mutable(inner_locked) => {
let inner = inner_locked.read().unwrap();
write!(f, "{inner}")
}
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Value::Boolean(boolean) => write!(f, "{boolean}"),
Value::Byte(byte) => write!(f, "{byte}"),
Value::Character(character) => write!(f, "{character}"),
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Value::Enum(r#enum) => write!(f, "{enum}"),
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Value::Float(float) => write!(f, "{float}"),
Value::Function(function) => write!(f, "{function}"),
Value::Integer(integer) => write!(f, "{integer}"),
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Value::Map(pairs) => {
write!(f, "{{ ")?;
for (index, (key, value)) in pairs.iter().enumerate() {
write!(f, "{key}: {value}")?;
if index < pairs.len() - 1 {
write!(f, ", ")?;
}
}
write!(f, " }}")
}
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Value::List(list) => {
write!(f, "[")?;
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for (index, value) in list.iter().enumerate() {
write!(f, "{}", value)?;
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if index < list.len() - 1 {
write!(f, ", ")?;
}
}
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write!(f, "]")
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}
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Value::Range(Range { start, end }) => {
write!(f, "{start}..{end}")
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}
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Value::RangeInclusive(inclusive) => {
let start = inclusive.start();
let end = inclusive.end();
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write!(f, "{start}..={end}")
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}
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Value::String(string) => write!(f, "{string}"),
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Value::Struct(r#struct) => write!(f, "{struct}"),
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Value::Tuple(fields) => {
write!(f, "(")?;
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for (index, field) in fields.iter().enumerate() {
write!(f, "{}", field)?;
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if index < fields.len() - 1 {
write!(f, ", ")?;
}
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}
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write!(f, ")")
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}
}
}
}
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impl Eq for Value {}
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impl PartialEq for Value {
fn eq(&self, other: &Self) -> bool {
match (self, other) {
(Value::Boolean(left), Value::Boolean(right)) => left == right,
(Value::Byte(left), Value::Byte(right)) => left == right,
(Value::Character(left), Value::Character(right)) => left == right,
(Value::Float(left), Value::Float(right)) => left == right,
(Value::Function(left), Value::Function(right)) => left == right,
(Value::Integer(left), Value::Integer(right)) => left == right,
(Value::List(left), Value::List(right)) => left == right,
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(Value::Map(left), Value::Map(right)) => left == right,
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(Value::Mutable(left), Value::Mutable(right)) => {
let left = &*left.read().unwrap();
let right = &*right.read().unwrap();
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left == right
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}
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(Value::Range(left), Value::Range(right)) => left == right,
(Value::RangeInclusive(left), Value::RangeInclusive(right)) => left == right,
(Value::String(left), Value::String(right)) => left == right,
(Value::Struct(left), Value::Struct(right)) => left == right,
(Value::Tuple(left), Value::Tuple(right)) => left == right,
_ => false,
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}
}
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}
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impl PartialOrd for Value {
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fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
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Some(self.cmp(other))
}
}
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impl Ord for Value {
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fn cmp(&self, other: &Self) -> Ordering {
match (self, other) {
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(Value::Boolean(left), Value::Boolean(right)) => left.cmp(right),
(Value::Boolean(_), _) => Ordering::Greater,
(Value::Byte(left), Value::Byte(right)) => left.cmp(right),
(Value::Byte(_), _) => Ordering::Greater,
(Value::Character(left), Value::Character(right)) => left.cmp(right),
(Value::Character(_), _) => Ordering::Greater,
(Value::Float(left), Value::Float(right)) => left.partial_cmp(right).unwrap(),
(Value::Float(_), _) => Ordering::Greater,
(Value::Function(left), Value::Function(right)) => left.cmp(right),
(Value::Function(_), _) => Ordering::Greater,
(Value::Integer(left), Value::Integer(right)) => left.cmp(right),
(Value::Integer(_), _) => Ordering::Greater,
(Value::List(left), Value::List(right)) => left.cmp(right),
(Value::List(_), _) => Ordering::Greater,
(Value::Mutable(left), Value::Mutable(right)) => {
let left = left.read().unwrap();
let right = right.read().unwrap();
left.cmp(&right)
}
(Value::Mutable(_), _) => Ordering::Greater,
(Value::Range(left), Value::Range(right)) => {
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let start_cmp = left.start.cmp(&right.start);
if start_cmp.is_eq() {
left.end.cmp(&right.end)
} else {
start_cmp
}
}
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(Value::Range(_), _) => Ordering::Greater,
(Value::RangeInclusive(left), Value::RangeInclusive(right)) => {
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let start_cmp = left.start().cmp(right.start());
if start_cmp.is_eq() {
left.end().cmp(right.end())
} else {
start_cmp
}
}
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(Value::RangeInclusive(_), _) => Ordering::Greater,
(Value::String(left), Value::String(right)) => left.cmp(right),
(Value::String(_), _) => Ordering::Greater,
(Value::Struct(left), Value::Struct(right)) => left.cmp(right),
(Value::Struct(_), _) => Ordering::Greater,
(Value::Tuple(left), Value::Tuple(right)) => left.cmp(right),
_ => Ordering::Greater,
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}
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}
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}
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impl Serialize for Value {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
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where
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S: Serializer,
{
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match self {
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Value::Mutable(inner_locked) => {
let inner = inner_locked.read().unwrap();
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inner.serialize(serializer)
}
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Value::Boolean(boolean) => serializer.serialize_bool(*boolean),
Value::Byte(byte) => serializer.serialize_u8(*byte),
Value::Character(character) => serializer.serialize_char(*character),
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Value::Enum(r#emum) => r#emum.serialize(serializer),
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Value::Float(float) => serializer.serialize_f64(*float),
Value::Function(function) => function.serialize(serializer),
Value::Integer(integer) => serializer.serialize_i64(*integer),
Value::List(list) => list.serialize(serializer),
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Value::Map(pairs) => {
let mut ser = serializer.serialize_map(Some(pairs.len()))?;
for (key, value) in pairs {
ser.serialize_entry(key, value)?;
}
ser.end()
}
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Value::Range(range) => range.serialize(serializer),
Value::RangeInclusive(inclusive) => inclusive.serialize(serializer),
Value::String(string) => serializer.serialize_str(string),
Value::Struct(r#struct) => r#struct.serialize(serializer),
Value::Tuple(tuple) => tuple.serialize(serializer),
}
}
}
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impl<'de> Deserialize<'de> for Value {
fn deserialize<D>(deserializer: D) -> Result<Value, D::Error>
where
D: Deserializer<'de>,
{
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struct ValueVisitor;
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impl<'de> Visitor<'de> for ValueVisitor {
type Value = Value;
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fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result {
formatter.write_str("a value")
}
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fn visit_bool<E>(self, value: bool) -> Result<Value, E> {
Ok(Value::Boolean(value))
}
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fn visit_u8<E>(self, value: u8) -> Result<Value, E> {
Ok(Value::Byte(value))
}
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fn visit_char<E>(self, value: char) -> Result<Value, E> {
Ok(Value::Character(value))
}
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fn visit_f64<E>(self, value: f64) -> Result<Value, E> {
Ok(Value::Float(value))
}
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fn visit_i64<E>(self, value: i64) -> Result<Value, E> {
Ok(Value::Integer(value))
}
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fn visit_str<E>(self, value: &str) -> Result<Value, E> {
Ok(Value::String(value.to_string()))
}
}
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deserializer.deserialize_any(ValueVisitor)
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}
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}
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#[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)]
pub enum Function {
BuiltIn(BuiltInFunction),
Parsed {
name: Identifier,
r#type: FunctionType,
body: AbstractSyntaxTree,
},
}
impl Function {
pub fn call(
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self,
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_type_arguments: Option<Vec<Type>>,
value_arguments: Option<Vec<Value>>,
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context: &Context,
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) -> Result<Option<Value>, FunctionCallError> {
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match self {
Function::BuiltIn(built_in_function) => built_in_function
.call(_type_arguments, value_arguments)
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.map_err(FunctionCallError::BuiltInFunction),
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Function::Parsed { r#type, body, .. } => {
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let new_context =
Context::with_data_from(context).map_err(FunctionCallError::Context)?;
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if let (Some(value_parameters), Some(value_arguments)) =
(&r#type.value_parameters, value_arguments)
{
for ((identifier, _), value) in value_parameters.iter().zip(value_arguments) {
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new_context
.set_variable_value(identifier.clone(), value)
.map_err(FunctionCallError::Context)?;
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}
}
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let mut vm = Vm::new(body, new_context);
vm.run()
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.map_err(|error| FunctionCallError::Runtime(Box::new(error)))
}
}
}
}
impl Display for Function {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
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match self {
Function::BuiltIn(built_in_function) => write!(f, "{}", built_in_function),
Function::Parsed { name, r#type, body } => {
write!(f, "fn {}", name)?;
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if let Some(type_parameters) = &r#type.type_parameters {
write!(f, "<")?;
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for (index, type_parameter) in type_parameters.iter().enumerate() {
if index > 0 {
write!(f, ", ")?;
}
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write!(f, "{}", type_parameter)?;
}
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write!(f, ">")?;
}
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write!(f, "(")?;
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if let Some(value_paramers) = &r#type.value_parameters {
for (index, (identifier, r#type)) in value_paramers.iter().enumerate() {
if index > 0 {
write!(f, ", ")?;
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}
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write!(f, "{identifier}: {type}")?;
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}
}
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write!(f, ") {{")?;
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for statement in &body.statements {
write!(f, "{}", statement)?;
}
write!(f, "}}")
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}
}
}
}
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#[derive(Clone, Debug, PartialEq)]
pub enum FunctionCallError {
BuiltInFunction(BuiltInFunctionError),
Context(ContextError),
Runtime(Box<RuntimeError>),
}
impl Display for FunctionCallError {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
match self {
FunctionCallError::BuiltInFunction(error) => write!(f, "{}", error),
FunctionCallError::Context(error) => write!(f, "{}", error),
FunctionCallError::Runtime(error) => write!(f, "{}", error),
}
}
}
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#[derive(Clone, Debug, Eq, PartialEq, Serialize, Deserialize)]
pub enum Struct {
Unit {
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name: Identifier,
},
Tuple {
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name: Identifier,
fields: Vec<Value>,
},
Fields {
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name: Identifier,
fields: HashMap<Identifier, Value>,
},
}
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impl PartialOrd for Struct {
fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
Some(self.cmp(other))
}
}
impl Ord for Struct {
fn cmp(&self, other: &Self) -> Ordering {
match (self, other) {
(Struct::Unit { name: left }, Struct::Unit { name: right }) => left.cmp(right),
(Struct::Unit { .. }, _) => Ordering::Greater,
(
Struct::Tuple {
name: left_name,
fields: left_fields,
},
Struct::Tuple {
name: right_name,
fields: right_fields,
},
) => {
let type_cmp = left_name.cmp(right_name);
if type_cmp != Ordering::Equal {
return type_cmp;
}
left_fields.cmp(right_fields)
}
(Struct::Tuple { .. }, _) => Ordering::Greater,
(
Struct::Fields {
name: left_name,
fields: left_fields,
},
Struct::Fields {
name: right_name,
fields: right_fields,
},
) => {
let type_cmp = left_name.cmp(right_name);
if type_cmp != Ordering::Equal {
return type_cmp;
}
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left_fields.iter().cmp(right_fields.iter())
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}
(Struct::Fields { .. }, _) => Ordering::Greater,
}
}
}
impl Display for Struct {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
match self {
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Struct::Unit { name } => write!(f, "{name}"),
Struct::Tuple { name, fields } => {
write!(f, "{name}(")?;
for (index, field) in fields.iter().enumerate() {
if index > 0 {
write!(f, ", ")?;
}
write!(f, "{}", field)?;
}
write!(f, ")")
}
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Struct::Fields { name, fields } => {
write!(f, "{name} {{ ")?;
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for (index, (identifier, value)) in fields.iter().enumerate() {
if index > 0 {
write!(f, ", ")?;
}
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write!(f, "{}: {}", identifier, value)?;
}
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write!(f, " }}")
}
}
}
}
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#[derive(Clone, Copy, Debug, PartialEq, Serialize, Deserialize)]
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pub enum Rangeable {
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Byte(u8),
Character(char),
Float(f64),
Integer(i64),
}
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impl From<u8> for Rangeable {
fn from(value: u8) -> Self {
Rangeable::Byte(value)
}
}
impl From<char> for Rangeable {
fn from(value: char) -> Self {
Rangeable::Character(value)
}
}
impl From<f64> for Rangeable {
fn from(value: f64) -> Self {
Rangeable::Float(value)
}
}
impl From<i32> for Rangeable {
fn from(value: i32) -> Self {
Rangeable::Integer(value as i64)
}
}
impl From<i64> for Rangeable {
fn from(value: i64) -> Self {
Rangeable::Integer(value)
}
}
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impl Rangeable {
fn r#type(&self) -> RangeableType {
match self {
Rangeable::Byte(_) => RangeableType::Byte,
Rangeable::Character(_) => RangeableType::Character,
Rangeable::Float(_) => RangeableType::Float,
Rangeable::Integer(_) => RangeableType::Integer,
}
}
}
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impl Display for Rangeable {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
match self {
Rangeable::Byte(byte) => write!(f, "{byte}"),
Rangeable::Character(character) => write!(f, "{character}"),
Rangeable::Float(float) => write!(f, "{float}"),
Rangeable::Integer(integer) => write!(f, "{integer}"),
}
}
}
impl Eq for Rangeable {}
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impl PartialOrd for Rangeable {
fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
Some(self.cmp(other))
}
}
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impl Ord for Rangeable {
fn cmp(&self, other: &Self) -> Ordering {
match (self, other) {
(Rangeable::Byte(left), Rangeable::Byte(right)) => left.cmp(right),
(Rangeable::Character(left), Rangeable::Character(right)) => left.cmp(right),
(Rangeable::Float(left), Rangeable::Float(right)) => {
left.to_bits().cmp(&right.to_bits())
}
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(Rangeable::Integer(left), Rangeable::Integer(right)) => left.cmp(right),
_ => unreachable!(),
}
}
}
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#[derive(Clone, Debug, PartialEq, Serialize, Deserialize)]
pub struct Enum {
pub r#type: EnumType,
pub name: Identifier,
pub variant_data: Struct,
}
impl Display for Enum {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
let Enum {
name, variant_data, ..
} = self;
match &variant_data {
Struct::Unit { name: variant_name } => write!(f, "{name}::{variant_name}"),
Struct::Tuple {
name: variant_name,
fields,
} => {
write!(f, "{name}::{variant_name}(")?;
for (index, field) in fields.iter().enumerate() {
if index > 0 {
write!(f, ", ")?;
}
write!(f, "{}", field)?;
}
write!(f, ")")
}
Struct::Fields {
name: variant_name,
fields,
} => {
write!(f, "{name}::{variant_name} {{ ")?;
for (index, (identifier, value)) in fields.iter().enumerate() {
if index > 0 {
write!(f, ", ")?;
}
write!(f, "{}: {}", identifier, value)?;
}
write!(f, " }}")
}
}
}
}
#[derive(Clone, Debug, PartialEq, Serialize, Deserialize)]
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pub enum ValueError {
CannotAdd(Value, Value),
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CannotAnd(Value, Value),
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CannotDivide(Value, Value),
CannotGreaterThan(Value, Value),
CannotGreaterThanOrEqual(Value, Value),
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CannotIndex { value: Value, index: Value },
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CannotLessThan(Value, Value),
CannotLessThanOrEqual(Value, Value),
CannotMakeMutable,
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CannotModulo(Value, Value),
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CannotMultiply(Value, Value),
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CannotMutate(Value),
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CannotSubtract(Value, Value),
CannotOr(Value, Value),
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DivisionByZero,
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ExpectedList(Value),
IndexOutOfBounds { value: Value, index: i64 },
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}
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impl Error for ValueError {}
impl Display for ValueError {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
match self {
ValueError::CannotAdd(left, right) => write!(f, "Cannot add {} and {}", left, right),
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ValueError::CannotAnd(left, right) => write!(
f,
"Cannot use logical and operation on {} and {}",
left, right
),
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ValueError::CannotDivide(left, right) => {
write!(f, "Cannot divide {} by {}", left, right)
}
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ValueError::CannotIndex { value, index } => {
write!(f, "Cannot index {} with {}", value, index)
}
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ValueError::CannotModulo(left, right) => {
write!(f, "Cannot modulo {} by {}", left, right)
}
ValueError::CannotMultiply(left, right) => {
write!(f, "Cannot multiply {} and {}", left, right)
}
ValueError::CannotMakeMutable => write!(
f,
"Failed to make mutable value because the value has an immutable reference to it"
),
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ValueError::CannotMutate(value) => write!(f, "Cannot mutate {}", value),
ValueError::CannotSubtract(left, right) => {
write!(f, "Cannot subtract {} and {}", left, right)
}
ValueError::CannotLessThan(left, right)
| ValueError::CannotLessThanOrEqual(left, right)
| ValueError::CannotGreaterThan(left, right)
| ValueError::CannotGreaterThanOrEqual(left, right) => {
write!(f, "Cannot compare {} and {}", left, right)
}
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ValueError::CannotOr(left, right) => {
write!(
f,
"Cannot use logical or operation on {} and {}",
left, right
)
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}
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ValueError::DivisionByZero => write!(f, "Division by zero"),
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ValueError::IndexOutOfBounds { value, index } => {
write!(f, "{} does not have an index of {}", value, index)
}
ValueError::ExpectedList(value) => write!(f, "{} is not a list", value),
}
}
}