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dust/src/abstract_tree/function_call.rs

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use serde::{Deserialize, Serialize};
use tree_sitter::Node;
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use crate::{AbstractTree, Error, Map, Result, Type, Value, ValueNode, BUILT_IN_FUNCTIONS};
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use super::expression::Expression;
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#[derive(Debug, Clone, Serialize, Deserialize, Eq, PartialEq, PartialOrd, Ord)]
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pub struct FunctionCall {
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function_expression: Expression,
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arguments: Vec<Expression>,
}
impl FunctionCall {
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pub fn new(function_expression: Expression, arguments: Vec<Expression>) -> Self {
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Self {
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function_expression,
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arguments,
}
}
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}
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impl AbstractTree for FunctionCall {
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fn from_syntax_node(source: &str, node: Node, context: &Map) -> Result<Self> {
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debug_assert_eq!("function_call", node.kind());
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let expression_node = node.child(1).unwrap();
let function_expression = Expression::from_syntax_node(source, expression_node, context)?;
let function_type = function_expression.expected_type(context)?;
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let mut arguments = Vec::new();
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for index in 2..node.child_count() - 1 {
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let child = node.child(index).unwrap();
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if child.is_named() {
let expression = Expression::from_syntax_node(source, child, context)?;
let expression_type = expression.expected_type(context)?;
let argument_index = arguments.len();
if let Type::Function {
parameter_types,
return_type: _,
} = &function_type
{
let expected_type = parameter_types.get(argument_index).unwrap();
expected_type
.check(&expression_type)
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.map_err(|error| error.at_node(child, source))?;
}
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arguments.push(expression);
}
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}
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Ok(FunctionCall {
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function_expression,
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arguments,
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})
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}
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fn run(&self, source: &str, context: &Map) -> Result<Value> {
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let value = match &self.function_expression {
Expression::Value(value_node) => value_node.run(source, context)?,
Expression::Identifier(identifier) => {
let key = identifier.inner();
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for built_in_function in BUILT_IN_FUNCTIONS {
if key == built_in_function.name() {
let mut arguments = Vec::with_capacity(self.arguments.len());
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for expression in &self.arguments {
let value = expression.run(source, context)?;
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arguments.push(value);
}
return built_in_function.run(&arguments, context);
}
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}
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let variables = context.variables()?;
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if let Some((value, _)) = variables.get(key) {
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value.clone()
} else {
return Err(Error::FunctionIdentifierNotFound(
identifier.inner().clone(),
));
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}
}
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Expression::Index(index) => index.run(source, context)?,
Expression::Math(math) => math.run(source, context)?,
Expression::Logic(logic) => logic.run(source, context)?,
Expression::FunctionCall(function_call) => function_call.run(source, context)?,
Expression::Yield(r#yield) => r#yield.run(source, context)?,
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};
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value.as_function()?.call(&self.arguments, source, context)
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}
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fn expected_type(&self, context: &Map) -> Result<Type> {
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match &self.function_expression {
Expression::Value(value_node) => {
if let ValueNode::Function(function) = value_node {
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let return_type = function.return_type()?.clone();
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Ok(return_type)
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} else {
value_node.expected_type(context)
}
}
Expression::Identifier(identifier) => {
for built_in_function in BUILT_IN_FUNCTIONS {
if identifier.inner() == built_in_function.name() {
if let Type::Function {
parameter_types: _,
return_type,
} = built_in_function.r#type()
{
return Ok(*return_type);
}
}
}
identifier.expected_type(context)
}
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Expression::Index(index) => index.expected_type(context),
Expression::Math(math) => math.expected_type(context),
Expression::Logic(logic) => logic.expected_type(context),
Expression::FunctionCall(function_call) => function_call.expected_type(context),
Expression::Yield(r#yield) => r#yield.expected_type(context),
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}
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}
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}
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#[cfg(test)]
mod tests {
use crate::{evaluate, Value};
#[test]
fn evaluate_function_call() {
assert_eq!(
evaluate(
"
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foobar = (fn message <str>) <str> { message }
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(foobar 'Hiya')
",
),
Ok(Value::String("Hiya".to_string()))
);
}
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#[test]
fn evaluate_callback() {
assert_eq!(
evaluate(
"
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foobar = (fn cb <() -> str>) <str> {
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(cb)
}
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(foobar (fn) <str> { 'Hiya' })
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",
),
Ok(Value::String("Hiya".to_string()))
);
}
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#[test]
fn evaluate_built_in_function_call() {
assert_eq!(evaluate("(output 'Hiya')"), Ok(Value::Empty));
}
}