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dust/dust-lang/src/vm.rs

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Rust
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use std::collections::HashMap;
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use crate::{
abstract_tree::BuiltInFunctionError, parse, AbstractSyntaxTree, Analyzer, AnalyzerError,
Identifier, Node, ParseError, Span, Statement, Value, ValueError,
};
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pub fn run(
input: &str,
variables: &mut HashMap<Identifier, Value>,
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) -> Result<Option<Value>, VmError<Span>> {
let abstract_syntax_tree = parse(input)?;
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let analyzer = Analyzer::new(&abstract_syntax_tree, variables);
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analyzer.analyze()?;
let mut vm = Vm::new(abstract_syntax_tree);
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vm.run(variables)
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}
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pub struct Vm<P> {
abstract_tree: AbstractSyntaxTree<P>,
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}
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impl<P: Copy> Vm<P> {
pub fn new(abstract_tree: AbstractSyntaxTree<P>) -> Self {
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Self { abstract_tree }
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}
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pub fn run(
&mut self,
variables: &mut HashMap<Identifier, Value>,
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) -> Result<Option<Value>, VmError<P>> {
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let mut previous_value = None;
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while let Some(node) = self.abstract_tree.nodes.pop_front() {
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previous_value = self.run_node(node, variables)?;
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}
Ok(previous_value)
}
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fn run_node(
&self,
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node: Node<P>,
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variables: &mut HashMap<Identifier, Value>,
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) -> Result<Option<Value>, VmError<P>> {
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match node.statement {
Statement::Add(left, right) => {
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let left_span = left.position;
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let left = if let Some(value) = self.run_node(*left, variables)? {
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value
} else {
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return Err(VmError::ExpectedValue {
position: left_span,
});
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};
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let right_span = right.position;
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let right = if let Some(value) = self.run_node(*right, variables)? {
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value
} else {
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return Err(VmError::ExpectedValue {
position: right_span,
});
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};
let sum = left.add(&right)?;
Ok(Some(sum))
}
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Statement::Assign(left, right) => {
let identifier = if let Statement::Identifier(identifier) = &left.statement {
identifier
} else {
return Err(VmError::ExpectedIdentifier {
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position: left.position,
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});
};
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let right_span = right.position;
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let value = if let Some(value) = self.run_node(*right, variables)? {
value
} else {
return Err(VmError::ExpectedValue {
position: right_span,
});
};
variables.insert(identifier.clone(), value);
Ok(None)
}
Statement::BuiltInFunctionCall {
function,
type_arguments: _,
value_arguments: value_nodes,
} => {
let mut values = if let Some(nodes) = value_nodes {
let mut values = Vec::new();
for node in nodes {
let position = node.position;
let value = if let Some(value) = self.run_node(node, variables)? {
value
} else {
return Err(VmError::ExpectedValue { position });
};
values.push(value);
}
Some(values)
} else {
None
};
let function_call_return = function.call(None, values)?;
Ok(Some(function_call_return))
}
Statement::Constant(value) => Ok(Some(value.clone())),
Statement::FunctionCall {
function: function_node,
type_arguments: type_parameter_nodes,
value_arguments: value_parameter_nodes,
} => {
let function_position = function_node.position;
let function_value =
if let Some(value) = self.run_node(*function_node, variables)? {
value
} else {
return Err(VmError::ExpectedValue {
position: function_position,
});
};
let function = if let Some(function) = function_value.as_function() {
function
} else {
return Err(VmError::AnaylyzerError(AnalyzerError::ExpectedFunction {
position: function_position,
}));
};
let value_parameters = if let Some(value_nodes) = value_parameter_nodes {
let mut value_parameters = Vec::new();
for node in value_nodes {
let position = node.position;
let value = if let Some(value) = self.run_node(node, variables)? {
value
} else {
return Err(VmError::ExpectedValue { position });
};
value_parameters.push(value);
}
Some(value_parameters)
} else {
None
};
Ok(function
.clone()
.call(None, value_parameters, variables)
.map_err(|error| VmError::FunctionCallFailed {
error: Box::new(error),
position: function_position,
})?)
}
Statement::Identifier(_) => Ok(None),
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Statement::List(nodes) => {
let values = nodes
.into_iter()
.map(|node| {
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let span = node.position;
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if let Some(value) = self.run_node(node, variables)? {
Ok(value)
} else {
Err(VmError::ExpectedValue { position: span })
}
})
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.collect::<Result<Vec<Value>, VmError<P>>>()?;
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Ok(Some(Value::list(values)))
}
Statement::Multiply(_, _) => todo!(),
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Statement::PropertyAccess(left, right) => {
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let left_span = left.position;
let left_value = if let Some(value) = self.run_node(*left, variables)? {
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value
} else {
return Err(VmError::ExpectedValue {
position: left_span,
});
};
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let right_span = right.position;
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if let (Some(list), Statement::Constant(value)) =
(left_value.as_list(), &right.statement)
{
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if let Some(index) = value.as_integer() {
let value = list.get(index as usize).cloned();
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return Ok(value);
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}
}
if let (
value,
Statement::BuiltInFunctionCall {
function,
type_arguments,
value_arguments: mut value_argument_nodes,
},
) = (left_value, right.statement)
{
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let mut value_arguments = Vec::new();
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value_arguments.push(value);
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if let Some(value_nodes) = value_argument_nodes {
for node in value_nodes {
let position = node.position;
let value = if let Some(value) = self.run_node(node, variables)? {
value
} else {
return Err(VmError::ExpectedValue { position });
};
value_arguments.push(value);
}
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}
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let function_call_return = function.call(None, Some(value_arguments))?;
return Ok(Some(function_call_return));
}
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Err(VmError::ExpectedIdentifierOrInteger {
position: right_span,
})
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}
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}
}
}
#[derive(Clone, Debug, PartialEq)]
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pub enum VmError<P> {
AnaylyzerError(AnalyzerError<P>),
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ParseError(ParseError),
ValueError(ValueError),
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// Anaylsis Failures
// These should be prevented by running the analyzer before the VM
BuiltInFunctionCallFailed(BuiltInFunctionError),
ExpectedIdentifier {
position: P,
},
ExpectedIdentifierOrInteger {
position: P,
},
ExpectedInteger {
position: P,
},
ExpectedList {
position: P,
},
ExpectedValue {
position: P,
},
FunctionCallFailed {
error: Box<VmError<()>>,
position: P,
},
}
impl<P> From<BuiltInFunctionError> for VmError<P> {
fn from(v: BuiltInFunctionError) -> Self {
Self::BuiltInFunctionCallFailed(v)
}
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}
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impl<P> From<AnalyzerError<P>> for VmError<P> {
fn from(error: AnalyzerError<P>) -> Self {
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Self::AnaylyzerError(error)
}
}
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impl<P> From<ParseError> for VmError<P> {
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fn from(error: ParseError) -> Self {
Self::ParseError(error)
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}
}
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impl<P> From<ValueError> for VmError<P> {
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fn from(error: ValueError) -> Self {
Self::ValueError(error)
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}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn boolean() {
let input = "true";
assert_eq!(
run(input, &mut HashMap::new()),
Ok(Some(Value::boolean(true)))
);
}
#[test]
fn is_even() {
let input = "42.is_even()";
assert_eq!(
run(input, &mut HashMap::new()),
Ok(Some(Value::boolean(true)))
);
}
#[test]
fn is_odd() {
let input = "42.is_odd()";
assert_eq!(
run(input, &mut HashMap::new()),
Ok(Some(Value::boolean(false)))
);
}
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#[test]
fn length() {
let input = "[1, 2, 3].length()";
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assert_eq!(run(input, &mut HashMap::new()), Ok(Some(Value::integer(3))));
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}
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#[test]
fn list_access() {
let input = "[1, 2, 3].1";
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assert_eq!(run(input, &mut HashMap::new()), Ok(Some(Value::integer(2))));
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}
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#[test]
fn add() {
let input = "1 + 2";
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assert_eq!(run(input, &mut HashMap::new()), Ok(Some(Value::integer(3))));
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}
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#[test]
fn add_multiple() {
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let input = "1 + 2 + 3";
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assert_eq!(run(input, &mut HashMap::new()), Ok(Some(Value::integer(6))));
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}
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}