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dust/src/abstract_tree/function_call.rs

203 lines
6.7 KiB
Rust

use serde::{Deserialize, Serialize};
use crate::{
built_in_functions::Callable,
error::{RuntimeError, SyntaxError, ValidationError},
AbstractTree, Context, Expression, Format, Function, FunctionExpression, SourcePosition,
SyntaxNode, Type, Value,
};
/// A function being invoked and the arguments it is being passed.
#[derive(Debug, Clone, Serialize, Deserialize, Eq, PartialEq, PartialOrd, Ord)]
pub struct FunctionCall {
function_expression: FunctionExpression,
arguments: Vec<Expression>,
syntax_position: SourcePosition,
}
impl FunctionCall {
/// Returns a new FunctionCall.
pub fn new(
function_expression: FunctionExpression,
arguments: Vec<Expression>,
syntax_position: SourcePosition,
) -> Self {
Self {
function_expression,
arguments,
syntax_position,
}
}
}
impl AbstractTree for FunctionCall {
fn from_syntax(node: SyntaxNode, source: &str, context: &Context) -> Result<Self, SyntaxError> {
SyntaxError::expect_syntax_node("function_call", node)?;
let function_node = node.child(0).unwrap();
let function_expression = FunctionExpression::from_syntax(function_node, source, context)?;
let mut arguments = Vec::new();
for index in 2..node.child_count() - 1 {
let child = node.child(index).unwrap();
if child.is_named() {
let expression = Expression::from_syntax(child, source, context)?;
arguments.push(expression);
}
}
Ok(FunctionCall {
function_expression,
arguments,
syntax_position: node.range().into(),
})
}
fn expected_type(&self, context: &Context) -> Result<Type, ValidationError> {
match &self.function_expression {
FunctionExpression::Identifier(identifier) => {
let identifier_type = identifier.expected_type(context)?;
if let Type::Function {
parameter_types: _,
return_type,
} = &identifier_type
{
Ok(*return_type.clone())
} else {
Ok(identifier_type)
}
}
FunctionExpression::FunctionCall(function_call) => function_call.expected_type(context),
FunctionExpression::Value(value_node) => {
let value_type = value_node.expected_type(context)?;
if let Type::Function { return_type, .. } = value_type {
Ok(*return_type)
} else {
Ok(value_type)
}
}
FunctionExpression::Index(index) => {
let index_type = index.expected_type(context)?;
if let Type::Function { return_type, .. } = index_type {
Ok(*return_type)
} else {
Ok(index_type)
}
}
}
}
fn validate(&self, _source: &str, context: &Context) -> Result<(), ValidationError> {
self.function_expression.validate(_source, context)?;
let function_expression_type = self.function_expression.expected_type(context)?;
let parameter_types = if let Type::Function {
parameter_types, ..
} = function_expression_type
{
parameter_types
} else {
return Err(ValidationError::TypeCheckExpectedFunction {
actual: function_expression_type,
position: self.syntax_position,
});
};
if self.arguments.len() != parameter_types.len() {
return Err(ValidationError::ExpectedFunctionArgumentAmount {
expected: parameter_types.len(),
actual: self.arguments.len(),
position: self.syntax_position,
});
}
for (index, expression) in self.arguments.iter().enumerate() {
expression.validate(_source, context)?;
if let Some(expected) = parameter_types.get(index) {
let actual = expression.expected_type(context)?;
if !expected.accepts(&actual) {
return Err(ValidationError::TypeCheck {
expected: expected.clone(),
actual,
position: self.syntax_position,
});
}
}
}
Ok(())
}
fn run(&self, source: &str, context: &Context) -> Result<Value, RuntimeError> {
let value = match &self.function_expression {
FunctionExpression::Identifier(identifier) => {
if let Some(value) = context.get_value(identifier)? {
value.clone()
} else {
return Err(RuntimeError::ValidationFailure(
ValidationError::VariableIdentifierNotFound(identifier.clone()),
));
}
}
FunctionExpression::FunctionCall(function_call) => {
function_call.run(source, context)?
}
FunctionExpression::Value(value_node) => value_node.run(source, context)?,
FunctionExpression::Index(index) => index.run(source, context)?,
};
let function = value.as_function()?;
match function {
Function::BuiltIn(built_in_function) => {
let mut arguments = Vec::with_capacity(self.arguments.len());
for expression in &self.arguments {
let value = expression.run(source, context)?;
arguments.push(value);
}
built_in_function.call(&arguments, source, context)
}
Function::ContextDefined(function_node) => {
let call_context = Context::with_variables_from(function_node.context())?;
call_context.inherit_from(context)?;
let parameter_expression_pairs =
function_node.parameters().iter().zip(self.arguments.iter());
for (identifier, expression) in parameter_expression_pairs {
let value = expression.run(source, context)?;
call_context.set_value(identifier.clone(), value)?;
}
function_node.body().run(source, &call_context)
}
}
}
}
impl Format for FunctionCall {
fn format(&self, output: &mut String, indent_level: u8) {
self.function_expression.format(output, indent_level);
output.push('(');
for expression in &self.arguments {
expression.format(output, indent_level);
}
output.push(')');
}
}