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Experiment with context scopes

This commit is contained in:
Jeff 2024-07-04 14:39:45 -04:00
parent 0e52ed7a49
commit e84e022eed
29 changed files with 439 additions and 441 deletions

View File

@ -12,7 +12,7 @@ use crate::{
Value, Value,
}; };
use super::{AbstractNode, Evaluation, Expression, Type, TypeConstructor}; use super::{AbstractNode, Evaluation, Expression, SourcePosition, Type, TypeConstructor};
#[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)] #[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)]
pub struct As { pub struct As {
@ -34,9 +34,10 @@ impl AbstractNode for As {
&self, &self,
_context: &Context, _context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
self.expression self.expression
.define_and_validate(_context, _manage_memory)?; .define_and_validate(_context, _manage_memory, scope)?;
match self.constructor { match self.constructor {
TypeConstructor::Raw(_) => {} TypeConstructor::Raw(_) => {}
@ -50,9 +51,10 @@ impl AbstractNode for As {
self, self,
context: &Context, context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
let expression_position = self.expression.position(); let expression_position = self.expression.position();
let evaluation = self.expression.evaluate(context, _manage_memory)?; let evaluation = self.expression.evaluate(context, _manage_memory, scope)?;
let value = if let Some(Evaluation::Return(value)) = evaluation { let value = if let Some(Evaluation::Return(value)) = evaluation {
value value
} else { } else {

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@ -9,7 +9,9 @@ use crate::{
Context, Value, Context, Value,
}; };
use super::{AbstractNode, Evaluation, Statement, Type, TypeConstructor, WithPosition}; use super::{
AbstractNode, Evaluation, SourcePosition, Statement, Type, TypeConstructor, WithPosition,
};
#[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)] #[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)]
pub struct Assignment { pub struct Assignment {
@ -47,20 +49,21 @@ impl AbstractNode for Assignment {
&self, &self,
context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
if let Some(constructor) = &self.constructor { let r#type = if let Some(constructor) = &self.constructor {
let r#type = constructor.construct(&context)?; constructor.construct(&context)?
context.set_type(self.identifier.node.clone(), r#type.clone())?;
} else if let Some(r#type) = self.statement.expected_type(context)? { } else if let Some(r#type) = self.statement.expected_type(context)? {
context.set_type(self.identifier.node.clone(), r#type)?; r#type
} else { } else {
return Err(ValidationError::CannotAssignToNone( return Err(ValidationError::CannotAssignToNone(
self.statement.last_evaluated_statement().position(), self.statement.last_evaluated_statement().position(),
)); ));
}; };
self.statement.define_and_validate(context, manage_memory)?; context.set_type(self.identifier.node.clone(), r#type, scope)?;
self.statement
.define_and_validate(context, manage_memory, scope)?;
let statement_type = self.statement.expected_type(context)?; let statement_type = self.statement.expected_type(context)?;
@ -91,8 +94,9 @@ impl AbstractNode for Assignment {
self, self,
context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
let evaluation = self.statement.evaluate(context, manage_memory)?; let evaluation = self.statement.evaluate(context, manage_memory, scope)?;
let right = match evaluation { let right = match evaluation {
Some(Evaluation::Return(value)) => value, Some(Evaluation::Return(value)) => value,
evaluation => return Ok(evaluation), evaluation => return Ok(evaluation),
@ -100,7 +104,7 @@ impl AbstractNode for Assignment {
match self.operator { match self.operator {
AssignmentOperator::Assign => { AssignmentOperator::Assign => {
context.set_value(self.identifier.node, right)?; context.set_value(self.identifier.node, right, scope)?;
} }
AssignmentOperator::AddAssign => { AssignmentOperator::AddAssign => {
let left_option = if manage_memory { let left_option = if manage_memory {
@ -137,7 +141,7 @@ impl AbstractNode for Assignment {
)) ))
} }
}; };
context.set_value(self.identifier.node, new_value)?; context.set_value(self.identifier.node, new_value, scope)?;
} else { } else {
return Err(RuntimeError::ValidationFailure( return Err(RuntimeError::ValidationFailure(
ValidationError::VariableNotFound { ValidationError::VariableNotFound {
@ -182,7 +186,7 @@ impl AbstractNode for Assignment {
)) ))
} }
}; };
context.set_value(self.identifier.node, new_value)?; context.set_value(self.identifier.node, new_value, scope)?;
} else { } else {
return Err(RuntimeError::ValidationFailure( return Err(RuntimeError::ValidationFailure(
ValidationError::VariableNotFound { ValidationError::VariableNotFound {

View File

@ -11,7 +11,7 @@ use crate::{
error::{RuntimeError, ValidationError}, error::{RuntimeError, ValidationError},
}; };
use super::{AbstractNode, Evaluation, Statement, Type}; use super::{AbstractNode, Evaluation, SourcePosition, Statement, Type};
#[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)] #[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)]
pub struct AsyncBlock { pub struct AsyncBlock {
@ -29,20 +29,26 @@ impl AbstractNode for AsyncBlock {
&self, &self,
_context: &Context, _context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
for statement in &self.statements { for statement in &self.statements {
statement.define_and_validate(_context, manage_memory)?; statement.define_and_validate(_context, manage_memory, scope)?;
} }
Ok(()) Ok(())
} }
fn evaluate(self, _context: &Context, _: bool) -> Result<Option<Evaluation>, RuntimeError> { fn evaluate(
self,
_context: &Context,
_: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> {
let final_result = Mutex::new(Ok(None)); let final_result = Mutex::new(Ok(None));
let statement_count = self.statements.len(); let statement_count = self.statements.len();
let error_option = self.statements.into_par_iter().enumerate().find_map_any( let error_option = self.statements.into_par_iter().enumerate().find_map_any(
|(index, statement)| -> Option<RuntimeError> { |(index, statement)| -> Option<RuntimeError> {
let result = statement.evaluate(&_context, false); let result = statement.evaluate(&_context, false, scope);
if let Err(error) = result { if let Err(error) = result {
return Some(error); return Some(error);

View File

@ -7,7 +7,7 @@ use crate::{
error::{RuntimeError, ValidationError}, error::{RuntimeError, ValidationError},
}; };
use super::{AbstractNode, Evaluation, Statement, Type}; use super::{AbstractNode, Evaluation, SourcePosition, Statement, Type};
#[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)] #[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)]
pub struct Block { pub struct Block {
@ -33,9 +33,10 @@ impl AbstractNode for Block {
&self, &self,
_context: &Context, _context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
for statement in &self.statements { for statement in &self.statements {
statement.define_and_validate(_context, _manage_memory)?; statement.define_and_validate(_context, _manage_memory, scope)?;
} }
Ok(()) Ok(())
@ -45,11 +46,12 @@ impl AbstractNode for Block {
self, self,
_context: &Context, _context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
let mut previous = None; let mut previous = None;
for statement in self.statements { for statement in self.statements {
previous = statement.evaluate(_context, _manage_memory)?; previous = statement.evaluate(_context, _manage_memory, scope)?;
} }
Ok(previous) Ok(previous)
@ -96,7 +98,9 @@ mod tests {
]); ]);
assert_eq!( assert_eq!(
block.evaluate(&Context::new(None), true).unwrap(), block
.evaluate(&Context::new(), true, SourcePosition(0, 0))
.unwrap(),
Some(Evaluation::Return(Value::integer(42))) Some(Evaluation::Return(Value::integer(42)))
) )
} }
@ -113,7 +117,7 @@ mod tests {
]); ]);
assert_eq!( assert_eq!(
block.expected_type(&Context::new(None)), block.expected_type(&Context::new()),
Ok(Some(Type::Integer)) Ok(Some(Type::Integer))
) )
} }

View File

@ -85,7 +85,7 @@ impl FunctionLogic for Length {
Type::Function { Type::Function {
type_parameters: None, type_parameters: None,
value_parameters: Some(vec![( value_parameters: Some(vec![(
Identifier::new("list"), Identifier::from("list"),
Type::ListOf(Box::new(Type::Any)), Type::ListOf(Box::new(Type::Any)),
)]), )]),
return_type: Some(Box::new(Type::Integer)), return_type: Some(Box::new(Type::Integer)),
@ -93,7 +93,7 @@ impl FunctionLogic for Length {
} }
fn call(context: &Context, _: bool) -> Result<Option<Value>, RuntimeError> { fn call(context: &Context, _: bool) -> Result<Option<Value>, RuntimeError> {
let value = if let Some(value) = context.get_value(&Identifier::new("input"))? { let value = if let Some(value) = context.get_value(&Identifier::from("input"))? {
value value
} else { } else {
return Err(RuntimeError::ValidationFailure( return Err(RuntimeError::ValidationFailure(
@ -119,13 +119,13 @@ impl FunctionLogic for ReadFile {
fn r#type() -> Type { fn r#type() -> Type {
Type::Function { Type::Function {
type_parameters: None, type_parameters: None,
value_parameters: Some(vec![(Identifier::new("path"), Type::String)]), value_parameters: Some(vec![(Identifier::from("path"), Type::String)]),
return_type: Some(Box::new(Type::String)), return_type: Some(Box::new(Type::String)),
} }
} }
fn call(context: &Context, _: bool) -> Result<Option<Value>, RuntimeError> { fn call(context: &Context, _: bool) -> Result<Option<Value>, RuntimeError> {
let value = if let Some(value) = context.get_value(&Identifier::new("path"))? { let value = if let Some(value) = context.get_value(&Identifier::from("path"))? {
value value
} else { } else {
return Err(RuntimeError::ValidationFailure( return Err(RuntimeError::ValidationFailure(
@ -173,13 +173,13 @@ impl FunctionLogic for Sleep {
fn r#type() -> Type { fn r#type() -> Type {
Type::Function { Type::Function {
type_parameters: None, type_parameters: None,
value_parameters: Some(vec![(Identifier::new("milliseconds"), Type::Integer)]), value_parameters: Some(vec![(Identifier::from("milliseconds"), Type::Integer)]),
return_type: None, return_type: None,
} }
} }
fn call(context: &Context, _: bool) -> Result<Option<Value>, RuntimeError> { fn call(context: &Context, _: bool) -> Result<Option<Value>, RuntimeError> {
let value = if let Some(value) = context.get_value(&Identifier::new("milliseconds"))? { let value = if let Some(value) = context.get_value(&Identifier::from("milliseconds"))? {
value value
} else { } else {
return Err(RuntimeError::ValidationFailure( return Err(RuntimeError::ValidationFailure(
@ -207,13 +207,13 @@ impl FunctionLogic for WriteLine {
fn r#type() -> Type { fn r#type() -> Type {
Type::Function { Type::Function {
type_parameters: None, type_parameters: None,
value_parameters: Some(vec![(Identifier::new("output"), Type::String)]), value_parameters: Some(vec![(Identifier::from("output"), Type::String)]),
return_type: None, return_type: None,
} }
} }
fn call(context: &Context, _: bool) -> Result<Option<Value>, RuntimeError> { fn call(context: &Context, _: bool) -> Result<Option<Value>, RuntimeError> {
let value = if let Some(value) = context.get_value(&Identifier::new("output"))? { let value = if let Some(value) = context.get_value(&Identifier::from("output"))? {
value value
} else { } else {
return Err(RuntimeError::ValidationFailure( return Err(RuntimeError::ValidationFailure(
@ -240,26 +240,26 @@ struct JsonParse;
impl FunctionLogic for JsonParse { impl FunctionLogic for JsonParse {
fn r#type() -> Type { fn r#type() -> Type {
let type_t = Type::Generic { let type_t = Type::Generic {
identifier: Identifier::new("T"), identifier: Identifier::from("T"),
concrete_type: None, concrete_type: None,
}; };
Type::Function { Type::Function {
type_parameters: None, type_parameters: None,
value_parameters: Some(vec![(Identifier::new("input"), type_t.clone())]), value_parameters: Some(vec![(Identifier::from("input"), type_t.clone())]),
return_type: Some(Box::new(type_t)), return_type: Some(Box::new(type_t)),
} }
} }
fn call(context: &Context, _: bool) -> Result<Option<Value>, RuntimeError> { fn call(context: &Context, _: bool) -> Result<Option<Value>, RuntimeError> {
let target_type = if let Some(r#type) = context.get_type(&Identifier::new("T"))? { let target_type = if let Some(r#type) = context.get_type(&Identifier::from("T"))? {
r#type r#type
} else { } else {
return Err(RuntimeError::ValidationFailure( return Err(RuntimeError::ValidationFailure(
ValidationError::BuiltInFunctionFailure("T does not exist"), ValidationError::BuiltInFunctionFailure("T does not exist"),
)); ));
}; };
let value = if let Some(value) = context.get_value(&Identifier::new("input"))? { let value = if let Some(value) = context.get_value(&Identifier::from("input"))? {
value value
} else { } else {
return Err(RuntimeError::ValidationFailure( return Err(RuntimeError::ValidationFailure(

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@ -8,7 +8,7 @@ use crate::{
identifier::Identifier, identifier::Identifier,
}; };
use super::{AbstractNode, Evaluation, Type, TypeConstructor, WithPosition}; use super::{AbstractNode, Evaluation, SourcePosition, Type, TypeConstructor, WithPosition};
#[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)] #[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)]
pub struct EnumDeclaration { pub struct EnumDeclaration {
@ -32,7 +32,12 @@ impl EnumDeclaration {
} }
impl AbstractNode for EnumDeclaration { impl AbstractNode for EnumDeclaration {
fn define_and_validate(&self, context: &Context, _: bool) -> Result<(), ValidationError> { fn define_and_validate(
&self,
context: &Context,
_: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> {
let EnumDeclaration { let EnumDeclaration {
name, name,
type_parameters, type_parameters,
@ -73,13 +78,25 @@ impl AbstractNode for EnumDeclaration {
type_parameters, type_parameters,
variants: type_variants, variants: type_variants,
}; };
let final_node_position = if let Some(constructors) = &self.variants.last().unwrap().content
{
constructors.last().unwrap().position()
} else {
self.variants.last().unwrap().name.position
};
let scope = SourcePosition(self.name.position.0, final_node_position.1);
context.set_type(name.node.clone(), r#type)?; context.set_type(name.node.clone(), r#type, scope)?;
Ok(()) Ok(())
} }
fn evaluate(self, _: &Context, _: bool) -> Result<Option<Evaluation>, RuntimeError> { fn evaluate(
self,
_: &Context,
_: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> {
Ok(None) Ok(None)
} }

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@ -45,12 +45,15 @@ impl AbstractNode for Expression {
&self, &self,
context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
match self { match self {
Expression::As(r#as) => r#as.node.define_and_validate(context, manage_memory), Expression::As(r#as) => r#as.node.define_and_validate(context, manage_memory, scope),
Expression::FunctionCall(function_call) => function_call Expression::FunctionCall(function_call) => {
function_call
.node .node
.define_and_validate(context, manage_memory), .define_and_validate(context, manage_memory, scope)
}
Expression::Identifier(identifier) => { Expression::Identifier(identifier) => {
let found = context.add_expected_use(&identifier.node)?; let found = context.add_expected_use(&identifier.node)?;
@ -64,15 +67,25 @@ impl AbstractNode for Expression {
} }
} }
Expression::MapIndex(map_index) => { Expression::MapIndex(map_index) => {
map_index.node.define_and_validate(context, manage_memory) map_index
.node
.define_and_validate(context, manage_memory, scope)
} }
Expression::ListIndex(list_index) => { Expression::ListIndex(list_index) => {
list_index.node.define_and_validate(context, manage_memory) list_index
.node
.define_and_validate(context, manage_memory, scope)
} }
Expression::Logic(logic) => logic.node.define_and_validate(context, manage_memory), Expression::Logic(logic) => {
Expression::Math(math) => math.node.define_and_validate(context, manage_memory), logic
.node
.define_and_validate(context, manage_memory, scope)
}
Expression::Math(math) => math.node.define_and_validate(context, manage_memory, scope),
Expression::Value(value_node) => { Expression::Value(value_node) => {
value_node.node.define_and_validate(context, manage_memory) value_node
.node
.define_and_validate(context, manage_memory, scope)
} }
} }
} }
@ -81,11 +94,12 @@ impl AbstractNode for Expression {
self, self,
context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
match self { match self {
Expression::As(r#as) => r#as.node.evaluate(context, manage_memory), Expression::As(r#as) => r#as.node.evaluate(context, manage_memory, scope),
Expression::FunctionCall(function_call) => { Expression::FunctionCall(function_call) => {
function_call.node.evaluate(context, manage_memory) function_call.node.evaluate(context, manage_memory, scope)
} }
Expression::Identifier(identifier) => { Expression::Identifier(identifier) => {
let value_option = if manage_memory { let value_option = if manage_memory {
@ -105,11 +119,17 @@ impl AbstractNode for Expression {
)) ))
} }
} }
Expression::MapIndex(map_index) => map_index.node.evaluate(context, manage_memory), Expression::MapIndex(map_index) => {
Expression::ListIndex(list_index) => list_index.node.evaluate(context, manage_memory), map_index.node.evaluate(context, manage_memory, scope)
Expression::Logic(logic) => logic.node.evaluate(context, manage_memory), }
Expression::Math(math) => math.node.evaluate(context, manage_memory), Expression::ListIndex(list_index) => {
Expression::Value(value_node) => value_node.node.evaluate(context, manage_memory), list_index.node.evaluate(context, manage_memory, scope)
}
Expression::Logic(logic) => logic.node.evaluate(context, manage_memory, scope),
Expression::Math(math) => math.node.evaluate(context, manage_memory, scope),
Expression::Value(value_node) => {
value_node.node.evaluate(context, manage_memory, scope)
}
} }
} }

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@ -11,16 +11,13 @@ use crate::{
value::ValueInner, value::ValueInner,
}; };
use super::{AbstractNode, Evaluation, Expression, Type, TypeConstructor}; use super::{AbstractNode, Evaluation, Expression, SourcePosition, Type, TypeConstructor};
#[derive(Debug, Clone, Serialize, Deserialize)] #[derive(Debug, Clone, Serialize, Deserialize)]
pub struct FunctionCall { pub struct FunctionCall {
function_expression: Box<Expression>, function_expression: Box<Expression>,
type_arguments: Option<Vec<TypeConstructor>>, type_arguments: Option<Vec<TypeConstructor>>,
value_arguments: Option<Vec<Expression>>, value_arguments: Option<Vec<Expression>>,
#[serde(skip)]
context: Context,
} }
impl FunctionCall { impl FunctionCall {
@ -33,7 +30,6 @@ impl FunctionCall {
function_expression: Box::new(function_expression), function_expression: Box::new(function_expression),
type_arguments, type_arguments,
value_arguments, value_arguments,
context: Context::new(None),
} }
} }
} }
@ -41,21 +37,21 @@ impl FunctionCall {
impl AbstractNode for FunctionCall { impl AbstractNode for FunctionCall {
fn define_and_validate( fn define_and_validate(
&self, &self,
outer_context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
self.context.set_parent(outer_context.clone())?;
self.function_expression self.function_expression
.define_and_validate(outer_context, manage_memory)?; .define_and_validate(context, manage_memory, scope)?;
if let Some(value_arguments) = &self.value_arguments { if let Some(value_arguments) = &self.value_arguments {
for expression in value_arguments { for expression in value_arguments {
expression.define_and_validate(outer_context, manage_memory)?; expression.define_and_validate(context, manage_memory, scope)?;
} }
} }
let function_node_type = let function_node_type =
if let Some(r#type) = self.function_expression.expected_type(outer_context)? { if let Some(r#type) = self.function_expression.expected_type(context)? {
r#type r#type
} else { } else {
return Err(ValidationError::ExpectedValueStatement( return Err(ValidationError::ExpectedValueStatement(
@ -78,9 +74,9 @@ impl AbstractNode for FunctionCall {
} }
for (identifier, constructor) in parameters.into_iter().zip(arguments.into_iter()) { for (identifier, constructor) in parameters.into_iter().zip(arguments.into_iter()) {
let r#type = constructor.construct(outer_context)?; let r#type = constructor.construct(context)?;
self.context.set_type(identifier, r#type)?; context.set_type(identifier, r#type, self.function_expression.position())?;
} }
} }
@ -89,8 +85,7 @@ impl AbstractNode for FunctionCall {
for ((identifier, _), expression) in for ((identifier, _), expression) in
parameters.iter().zip(arguments.into_iter()) parameters.iter().zip(arguments.into_iter())
{ {
let r#type = let r#type = if let Some(r#type) = expression.expected_type(context)? {
if let Some(r#type) = expression.expected_type(outer_context)? {
r#type r#type
} else { } else {
return Err(ValidationError::ExpectedValueStatement( return Err(ValidationError::ExpectedValueStatement(
@ -98,7 +93,11 @@ impl AbstractNode for FunctionCall {
)); ));
}; };
self.context.set_type(identifier.clone(), r#type)?; context.set_type(
identifier.clone(),
r#type,
self.function_expression.position(),
)?;
} }
if parameters.len() != arguments.len() { if parameters.len() != arguments.len() {
@ -134,13 +133,14 @@ impl AbstractNode for FunctionCall {
fn evaluate( fn evaluate(
self, self,
outer_context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
let function_position = self.function_expression.position(); let function_position = self.function_expression.position();
let evaluation = self let evaluation = self
.function_expression .function_expression
.evaluate(outer_context, manage_memory)?; .evaluate(context, manage_memory, scope)?;
let value = if let Some(Evaluation::Return(value)) = evaluation { let value = if let Some(Evaluation::Return(value)) = evaluation {
value value
} else { } else {
@ -156,9 +156,9 @@ impl AbstractNode for FunctionCall {
for (identifier, constructor) in for (identifier, constructor) in
type_parameters.into_iter().zip(type_arguments.into_iter()) type_parameters.into_iter().zip(type_arguments.into_iter())
{ {
let r#type = constructor.construct(outer_context)?; let r#type = constructor.construct(context)?;
self.context.set_type(identifier.clone(), r#type)?; context.set_type(identifier.clone(), r#type, function_position)?;
} }
} }
@ -169,7 +169,7 @@ impl AbstractNode for FunctionCall {
parameters.into_iter().zip(arguments.into_iter()) parameters.into_iter().zip(arguments.into_iter())
{ {
let position = expression.position(); let position = expression.position();
let evaluation = expression.evaluate(outer_context, manage_memory)?; let evaluation = expression.evaluate(context, manage_memory, scope)?;
let value = if let Some(Evaluation::Return(value)) = evaluation { let value = if let Some(Evaluation::Return(value)) = evaluation {
value value
} else { } else {
@ -178,11 +178,11 @@ impl AbstractNode for FunctionCall {
)); ));
}; };
self.context.set_value(identifier.clone(), value)?; context.set_value(identifier.clone(), value, function_position)?;
} }
} }
return function.clone().call(&self.context, manage_memory); return function.clone().call(context, manage_memory, scope);
} }
if let ValueInner::BuiltInFunction(function) = value.inner().as_ref() { if let ValueInner::BuiltInFunction(function) = value.inner().as_ref() {
@ -208,9 +208,9 @@ impl AbstractNode for FunctionCall {
for (identifier, constructor) in for (identifier, constructor) in
type_parameters.into_iter().zip(type_arguments.into_iter()) type_parameters.into_iter().zip(type_arguments.into_iter())
{ {
let r#type = constructor.construct(outer_context)?; let r#type = constructor.construct(context)?;
self.context.set_type(identifier.clone(), r#type)?; context.set_type(identifier.clone(), r#type, function_position)?;
} }
} }
@ -219,7 +219,7 @@ impl AbstractNode for FunctionCall {
parameters.into_iter().zip(arguments.into_iter()) parameters.into_iter().zip(arguments.into_iter())
{ {
let position = expression.position(); let position = expression.position();
let evaluation = expression.evaluate(outer_context, manage_memory)?; let evaluation = expression.evaluate(context, manage_memory, scope)?;
let value = if let Some(Evaluation::Return(value)) = evaluation { let value = if let Some(Evaluation::Return(value)) = evaluation {
value value
} else { } else {
@ -228,18 +228,18 @@ impl AbstractNode for FunctionCall {
)); ));
}; };
self.context.set_value(identifier.clone(), value)?; context.set_value(identifier.clone(), value, function_position)?;
} }
} }
return function return function
.call(&self.context, manage_memory) .call(context, manage_memory)
.map(|option| option.map(|value| Evaluation::Return(value))); .map(|option| option.map(|value| Evaluation::Return(value)));
} }
Err(RuntimeError::ValidationFailure( Err(RuntimeError::ValidationFailure(
ValidationError::ExpectedFunction { ValidationError::ExpectedFunction {
actual: value.r#type(outer_context)?, actual: value.r#type(context)?,
position: function_position, position: function_position,
}, },
)) ))

View File

@ -8,7 +8,7 @@ use crate::{
value::ValueInner, value::ValueInner,
}; };
use super::{AbstractNode, Block, Evaluation, Expression, Type, WithPosition}; use super::{AbstractNode, Block, Evaluation, Expression, SourcePosition, Type, WithPosition};
#[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)] #[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)]
pub struct IfElse { pub struct IfElse {
@ -39,12 +39,13 @@ impl AbstractNode for IfElse {
&self, &self,
context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
self.if_expression self.if_expression
.define_and_validate(context, manage_memory)?; .define_and_validate(context, manage_memory, scope)?;
self.if_block self.if_block
.node .node
.define_and_validate(context, manage_memory)?; .define_and_validate(context, manage_memory, scope)?;
let if_expression_type = if let Some(r#type) = self.if_expression.expected_type(context)? { let if_expression_type = if let Some(r#type) = self.if_expression.expected_type(context)? {
r#type r#type
@ -60,7 +61,9 @@ impl AbstractNode for IfElse {
let expression_type = expression.expected_type(context)?; let expression_type = expression.expected_type(context)?;
if let Some(Type::Boolean) = expression_type { if let Some(Type::Boolean) = expression_type {
block.node.define_and_validate(context, manage_memory)?; block
.node
.define_and_validate(context, manage_memory, scope)?;
let else_if_block_type = block.node.expected_type(context)?; let else_if_block_type = block.node.expected_type(context)?;
@ -83,7 +86,9 @@ impl AbstractNode for IfElse {
} }
if let Some(block) = &self.else_block { if let Some(block) = &self.else_block {
block.node.define_and_validate(context, manage_memory)?; block
.node
.define_and_validate(context, manage_memory, scope)?;
let else_if_block_type = block.node.expected_type(context)?; let else_if_block_type = block.node.expected_type(context)?;
@ -105,9 +110,12 @@ impl AbstractNode for IfElse {
self, self,
context: &Context, context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
let if_position = self.if_expression.position(); let if_position = self.if_expression.position();
let evaluation = self.if_expression.evaluate(context, _manage_memory)?; let evaluation = self
.if_expression
.evaluate(context, _manage_memory, scope)?;
let value = if let Some(Evaluation::Return(value)) = evaluation { let value = if let Some(Evaluation::Return(value)) = evaluation {
value value
} else { } else {
@ -118,13 +126,13 @@ impl AbstractNode for IfElse {
if let ValueInner::Boolean(if_boolean) = value.inner().as_ref() { if let ValueInner::Boolean(if_boolean) = value.inner().as_ref() {
if *if_boolean { if *if_boolean {
return self.if_block.node.evaluate(context, _manage_memory); return self.if_block.node.evaluate(context, _manage_memory, scope);
} }
if let Some(else_ifs) = self.else_ifs { if let Some(else_ifs) = self.else_ifs {
for (expression, block) in else_ifs { for (expression, block) in else_ifs {
let expression_position = expression.position(); let expression_position = expression.position();
let evaluation = expression.evaluate(context, _manage_memory)?; let evaluation = expression.evaluate(context, _manage_memory, scope)?;
let value = if let Some(Evaluation::Return(value)) = evaluation { let value = if let Some(Evaluation::Return(value)) = evaluation {
value value
} else { } else {
@ -135,7 +143,7 @@ impl AbstractNode for IfElse {
if let ValueInner::Boolean(else_if_boolean) = value.inner().as_ref() { if let ValueInner::Boolean(else_if_boolean) = value.inner().as_ref() {
if *else_if_boolean { if *else_if_boolean {
return block.node.evaluate(context, _manage_memory); return block.node.evaluate(context, _manage_memory, scope);
} }
} else { } else {
return Err(RuntimeError::ValidationFailure( return Err(RuntimeError::ValidationFailure(
@ -149,7 +157,7 @@ impl AbstractNode for IfElse {
} }
if let Some(else_statement) = self.else_block { if let Some(else_statement) = self.else_block {
else_statement.node.evaluate(context, _manage_memory) else_statement.node.evaluate(context, _manage_memory, scope)
} else { } else {
Ok(None) Ok(None)
} }
@ -214,7 +222,7 @@ mod tests {
Some(Vec::with_capacity(0)), Some(Vec::with_capacity(0)),
None None
) )
.evaluate(&Context::new(None), true) .evaluate(&Context::new(), true, SourcePosition(0, 0))
.unwrap(), .unwrap(),
Some(Evaluation::Return(Value::string("foo".to_string()))) Some(Evaluation::Return(Value::string("foo".to_string())))
) )

View File

@ -7,7 +7,7 @@ use crate::{
error::{RuntimeError, ValidationError}, error::{RuntimeError, ValidationError},
}; };
use super::{AbstractNode, Evaluation, Expression, Type, ValueNode, WithPosition}; use super::{AbstractNode, Evaluation, Expression, SourcePosition, Type, ValueNode, WithPosition};
#[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)] #[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)]
pub struct ListIndex { pub struct ListIndex {
@ -29,10 +29,12 @@ impl AbstractNode for ListIndex {
&self, &self,
context: &Context, context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
self.collection self.collection
.define_and_validate(context, _manage_memory)?; .define_and_validate(context, _manage_memory, scope)?;
self.index.define_and_validate(context, _manage_memory)?; self.index
.define_and_validate(context, _manage_memory, scope)?;
let collection_type = if let Some(r#type) = self.collection.expected_type(context)? { let collection_type = if let Some(r#type) = self.collection.expected_type(context)? {
r#type r#type
@ -77,9 +79,10 @@ impl AbstractNode for ListIndex {
self, self,
context: &Context, context: &Context,
_clear_variables: bool, _clear_variables: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
let left_position = self.collection.position(); let left_position = self.collection.position();
let left_evaluation = self.collection.evaluate(context, _clear_variables)?; let left_evaluation = self.collection.evaluate(context, _clear_variables, scope)?;
let left_value = if let Some(Evaluation::Return(value)) = left_evaluation { let left_value = if let Some(Evaluation::Return(value)) = left_evaluation {
value value
} else { } else {
@ -88,7 +91,7 @@ impl AbstractNode for ListIndex {
)); ));
}; };
let right_position = self.index.position(); let right_position = self.index.position();
let right_evaluation = self.index.evaluate(context, _clear_variables)?; let right_evaluation = self.index.evaluate(context, _clear_variables, scope)?;
let right_value = if let Some(Evaluation::Return(value)) = right_evaluation { let right_value = if let Some(Evaluation::Return(value)) = right_evaluation {
value value
} else { } else {

View File

@ -9,7 +9,7 @@ use crate::{
Value, Value,
}; };
use super::{AbstractNode, Evaluation, Expression, Type}; use super::{AbstractNode, Evaluation, Expression, SourcePosition, Type};
#[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)] #[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)]
pub enum Logic { pub enum Logic {
@ -29,6 +29,7 @@ impl AbstractNode for Logic {
&self, &self,
context: &Context, context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
match self { match self {
Logic::Equal(left, right) Logic::Equal(left, right)
@ -37,8 +38,8 @@ impl AbstractNode for Logic {
| Logic::Less(left, right) | Logic::Less(left, right)
| Logic::GreaterOrEqual(left, right) | Logic::GreaterOrEqual(left, right)
| Logic::LessOrEqual(left, right) => { | Logic::LessOrEqual(left, right) => {
left.define_and_validate(context, _manage_memory)?; left.define_and_validate(context, _manage_memory, scope)?;
right.define_and_validate(context, _manage_memory)?; right.define_and_validate(context, _manage_memory, scope)?;
let left_type = if let Some(r#type) = left.expected_type(context)? { let left_type = if let Some(r#type) = left.expected_type(context)? {
r#type r#type
@ -62,8 +63,8 @@ impl AbstractNode for Logic {
Ok(()) Ok(())
} }
Logic::And(left, right) | Logic::Or(left, right) => { Logic::And(left, right) | Logic::Or(left, right) => {
left.define_and_validate(context, _manage_memory)?; left.define_and_validate(context, _manage_memory, scope)?;
right.define_and_validate(context, _manage_memory)?; right.define_and_validate(context, _manage_memory, scope)?;
let left_type = if let Some(r#type) = left.expected_type(context)? { let left_type = if let Some(r#type) = left.expected_type(context)? {
r#type r#type
@ -95,7 +96,7 @@ impl AbstractNode for Logic {
Ok(()) Ok(())
} }
Logic::Not(expression) => { Logic::Not(expression) => {
expression.define_and_validate(context, _manage_memory)?; expression.define_and_validate(context, _manage_memory, scope)?;
let expression_type = if let Some(r#type) = expression.expected_type(context)? { let expression_type = if let Some(r#type) = expression.expected_type(context)? {
r#type r#type
@ -121,10 +122,11 @@ impl AbstractNode for Logic {
self, self,
context: &Context, context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
let run_and_expect_value = |expression: Expression| -> Result<Value, RuntimeError> { let run_and_expect_value = |expression: Expression| -> Result<Value, RuntimeError> {
let expression_position = expression.position(); let expression_position = expression.position();
let evaluation = expression.evaluate(&mut context.clone(), _manage_memory)?; let evaluation = expression.evaluate(&mut context.clone(), _manage_memory, scope)?;
let value = if let Some(Evaluation::Return(value)) = evaluation { let value = if let Some(Evaluation::Return(value)) = evaluation {
value value
} else { } else {
@ -138,7 +140,7 @@ impl AbstractNode for Logic {
let run_and_expect_boolean = |expression: Expression| -> Result<bool, RuntimeError> { let run_and_expect_boolean = |expression: Expression| -> Result<bool, RuntimeError> {
let expression_position = expression.position(); let expression_position = expression.position();
let evaluation = expression.evaluate(&mut context.clone(), _manage_memory)?; let evaluation = expression.evaluate(&mut context.clone(), _manage_memory, scope)?;
let value = if let Some(Evaluation::Return(value)) = evaluation { let value = if let Some(Evaluation::Return(value)) = evaluation {
value value
} else { } else {
@ -256,7 +258,7 @@ mod tests {
Expression::Value(ValueNode::Integer(42).with_position((0, 0))), Expression::Value(ValueNode::Integer(42).with_position((0, 0))),
Expression::Value(ValueNode::Integer(42).with_position((0, 0))) Expression::Value(ValueNode::Integer(42).with_position((0, 0)))
) )
.evaluate(&mut Context::new(None), true), .evaluate(&mut Context::new(), true, SourcePosition(0, 0)),
Ok(Some(Evaluation::Return(Value::boolean(true)))) Ok(Some(Evaluation::Return(Value::boolean(true))))
) )
} }
@ -268,7 +270,7 @@ mod tests {
Expression::Value(ValueNode::Integer(42).with_position((0, 0))), Expression::Value(ValueNode::Integer(42).with_position((0, 0))),
Expression::Value(ValueNode::Integer(43).with_position((0, 0))) Expression::Value(ValueNode::Integer(43).with_position((0, 0)))
) )
.evaluate(&mut Context::new(None), true), .evaluate(&mut Context::new(), true, SourcePosition(0, 0)),
Ok(Some(Evaluation::Return(Value::boolean(true)))) Ok(Some(Evaluation::Return(Value::boolean(true))))
) )
} }
@ -280,7 +282,7 @@ mod tests {
Expression::Value(ValueNode::Integer(43).with_position((0, 0))), Expression::Value(ValueNode::Integer(43).with_position((0, 0))),
Expression::Value(ValueNode::Integer(42).with_position((0, 0))) Expression::Value(ValueNode::Integer(42).with_position((0, 0)))
) )
.evaluate(&mut Context::new(None), true), .evaluate(&mut Context::new(), true, SourcePosition(0, 0)),
Ok(Some(Evaluation::Return(Value::boolean(true)))) Ok(Some(Evaluation::Return(Value::boolean(true))))
) )
} }
@ -292,7 +294,7 @@ mod tests {
Expression::Value(ValueNode::Integer(42).with_position((0, 0))), Expression::Value(ValueNode::Integer(42).with_position((0, 0))),
Expression::Value(ValueNode::Integer(43).with_position((0, 0))) Expression::Value(ValueNode::Integer(43).with_position((0, 0)))
) )
.evaluate(&mut Context::new(None), true), .evaluate(&mut Context::new(), true, SourcePosition(0, 0)),
Ok(Some(Evaluation::Return(Value::boolean(true)))) Ok(Some(Evaluation::Return(Value::boolean(true))))
) )
} }
@ -304,7 +306,7 @@ mod tests {
Expression::Value(ValueNode::Integer(42).with_position((0, 0))), Expression::Value(ValueNode::Integer(42).with_position((0, 0))),
Expression::Value(ValueNode::Integer(41).with_position((0, 0))) Expression::Value(ValueNode::Integer(41).with_position((0, 0)))
) )
.evaluate(&mut Context::new(None), true), .evaluate(&mut Context::new(), true, SourcePosition(0, 0)),
Ok(Some(Evaluation::Return(Value::boolean(true)))) Ok(Some(Evaluation::Return(Value::boolean(true))))
); );
@ -313,7 +315,7 @@ mod tests {
Expression::Value(ValueNode::Integer(42).with_position((0, 0))), Expression::Value(ValueNode::Integer(42).with_position((0, 0))),
Expression::Value(ValueNode::Integer(42).with_position((0, 0))), Expression::Value(ValueNode::Integer(42).with_position((0, 0))),
) )
.evaluate(&mut Context::new(None), true), .evaluate(&mut Context::new(), true, SourcePosition(0, 0)),
Ok(Some(Evaluation::Return(Value::boolean(true)))) Ok(Some(Evaluation::Return(Value::boolean(true))))
); );
} }
@ -325,7 +327,7 @@ mod tests {
Expression::Value(ValueNode::Integer(41).with_position((0, 0))), Expression::Value(ValueNode::Integer(41).with_position((0, 0))),
Expression::Value(ValueNode::Integer(42).with_position((0, 0))), Expression::Value(ValueNode::Integer(42).with_position((0, 0))),
) )
.evaluate(&mut Context::new(None), true), .evaluate(&mut Context::new(), true, SourcePosition(0, 0)),
Ok(Some(Evaluation::Return(Value::boolean(true)))) Ok(Some(Evaluation::Return(Value::boolean(true))))
); );
@ -334,7 +336,7 @@ mod tests {
Expression::Value(ValueNode::Integer(42).with_position((0, 0))), Expression::Value(ValueNode::Integer(42).with_position((0, 0))),
Expression::Value(ValueNode::Integer(42).with_position((0, 0))), Expression::Value(ValueNode::Integer(42).with_position((0, 0))),
) )
.evaluate(&mut Context::new(None), true), .evaluate(&mut Context::new(), true, SourcePosition(0, 0)),
Ok(Some(Evaluation::Return(Value::boolean(true)))) Ok(Some(Evaluation::Return(Value::boolean(true))))
); );
} }
@ -346,7 +348,7 @@ mod tests {
Expression::Value(ValueNode::Boolean(true).with_position((0, 0))), Expression::Value(ValueNode::Boolean(true).with_position((0, 0))),
Expression::Value(ValueNode::Boolean(true).with_position((0, 0))), Expression::Value(ValueNode::Boolean(true).with_position((0, 0))),
) )
.evaluate(&mut Context::new(None), true), .evaluate(&mut Context::new(), true, SourcePosition(0, 0)),
Ok(Some(Evaluation::Return(Value::boolean(true)))) Ok(Some(Evaluation::Return(Value::boolean(true))))
) )
} }
@ -358,7 +360,7 @@ mod tests {
Expression::Value(ValueNode::Boolean(true).with_position((0, 0))), Expression::Value(ValueNode::Boolean(true).with_position((0, 0))),
Expression::Value(ValueNode::Boolean(false).with_position((0, 0))), Expression::Value(ValueNode::Boolean(false).with_position((0, 0))),
) )
.evaluate(&mut Context::new(None), true), .evaluate(&mut Context::new(), true, SourcePosition(0, 0)),
Ok(Some(Evaluation::Return(Value::boolean(true)))) Ok(Some(Evaluation::Return(Value::boolean(true))))
) )
} }
@ -369,7 +371,7 @@ mod tests {
Logic::Not(Expression::Value( Logic::Not(Expression::Value(
ValueNode::Boolean(false).with_position((0, 0)) ValueNode::Boolean(false).with_position((0, 0))
)) ))
.evaluate(&mut Context::new(None), true), .evaluate(&mut Context::new(), true, SourcePosition(0, 0)),
Ok(Some(Evaluation::Return(Value::boolean(true)))) Ok(Some(Evaluation::Return(Value::boolean(true))))
) )
} }

View File

@ -7,7 +7,7 @@ use crate::{
error::{RuntimeError, ValidationError}, error::{RuntimeError, ValidationError},
}; };
use super::{AbstractNode, Evaluation, Statement, Type}; use super::{AbstractNode, Evaluation, SourcePosition, Statement, Type};
#[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)] #[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)]
pub struct Loop { pub struct Loop {
@ -29,9 +29,10 @@ impl AbstractNode for Loop {
&self, &self,
_context: &Context, _context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
for statement in &self.statements { for statement in &self.statements {
statement.define_and_validate(_context, false)?; statement.define_and_validate(_context, false, scope)?;
} }
Ok(()) Ok(())
@ -41,10 +42,11 @@ impl AbstractNode for Loop {
self, self,
_context: &Context, _context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
loop { loop {
for statement in &self.statements { for statement in &self.statements {
let run = statement.clone().evaluate(_context, false)?; let run = statement.clone().evaluate(_context, false, scope)?;
if let Some(Evaluation::Break) = run { if let Some(Evaluation::Break) = run {
return Ok(run); return Ok(run);

View File

@ -8,7 +8,7 @@ use crate::{
value::ValueInner, value::ValueInner,
}; };
use super::{AbstractNode, Evaluation, Expression, Type, ValueNode, WithPosition}; use super::{AbstractNode, Evaluation, Expression, SourcePosition, Type, ValueNode, WithPosition};
#[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)] #[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)]
pub struct MapIndex { pub struct MapIndex {
@ -30,9 +30,10 @@ impl AbstractNode for MapIndex {
&self, &self,
context: &Context, context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
self.collection self.collection
.define_and_validate(context, _manage_memory)?; .define_and_validate(context, _manage_memory, scope)?;
let collection_type = if let Some(r#type) = self.collection.expected_type(context)? { let collection_type = if let Some(r#type) = self.collection.expected_type(context)? {
r#type r#type
@ -56,7 +57,8 @@ impl AbstractNode for MapIndex {
if let Expression::Identifier(_) = &self.index { if let Expression::Identifier(_) = &self.index {
Ok(()) Ok(())
} else { } else {
self.index.define_and_validate(context, _manage_memory) self.index
.define_and_validate(context, _manage_memory, scope)
} }
} }
@ -64,9 +66,10 @@ impl AbstractNode for MapIndex {
self, self,
context: &Context, context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
let collection_position = self.collection.position(); let collection_position = self.collection.position();
let evaluation = self.collection.evaluate(context, _manage_memory)?; let evaluation = self.collection.evaluate(context, _manage_memory, scope)?;
let collection = if let Some(Evaluation::Return(value)) = evaluation { let collection = if let Some(Evaluation::Return(value)) = evaluation {
value value
} else { } else {

View File

@ -25,6 +25,7 @@ impl AbstractNode for Math {
&self, &self,
context: &Context, context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
match self { match self {
Math::Add(left, right) => { Math::Add(left, right) => {
@ -86,11 +87,13 @@ impl AbstractNode for Math {
fn evaluate( fn evaluate(
self, self,
_context: &Context, _context: &Context,
_clear_variables: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
let run_and_expect_value = let run_and_expect_value = |position: SourcePosition,
|position: SourcePosition, expression: Expression| -> Result<Value, RuntimeError> { expression: Expression|
let evaluation = expression.evaluate(&mut _context.clone(), _clear_variables)?; -> Result<Value, RuntimeError> {
let evaluation = expression.evaluate(&mut _context.clone(), _manage_memory, scope)?;
let value = if let Some(Evaluation::Return(value)) = evaluation { let value = if let Some(Evaluation::Return(value)) = evaluation {
value value
} else { } else {

View File

@ -126,9 +126,11 @@ impl AbstractTree {
manage_memory: bool, manage_memory: bool,
) -> Result<Option<Value>, Vec<DustError>> { ) -> Result<Option<Value>, Vec<DustError>> {
let mut errors = Vec::new(); let mut errors = Vec::new();
let global_scope = SourcePosition(0, usize::MAX);
for statement in &self.0 { for statement in &self.0 {
let validation_result = statement.define_and_validate(context, manage_memory); let validation_result =
statement.define_and_validate(context, manage_memory, global_scope);
if let Err(error) = validation_result { if let Err(error) = validation_result {
errors.push(DustError::Validation { errors.push(DustError::Validation {
@ -146,7 +148,7 @@ impl AbstractTree {
for statement in self.0 { for statement in self.0 {
let position = statement.position(); let position = statement.position();
let run = statement.evaluate(context, manage_memory); let run = statement.evaluate(context, manage_memory, global_scope);
match run { match run {
Ok(evaluation) => match evaluation { Ok(evaluation) => match evaluation {
@ -180,9 +182,10 @@ impl AbstractNode for AbstractTree {
&self, &self,
context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
for statement in &self.0 { for statement in &self.0 {
statement.define_and_validate(context, manage_memory)?; statement.define_and_validate(context, manage_memory, scope)?;
} }
Ok(()) Ok(())
@ -192,11 +195,12 @@ impl AbstractNode for AbstractTree {
self, self,
context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
let mut previous = None; let mut previous = None;
for statement in self.0 { for statement in self.0 {
previous = statement.evaluate(context, manage_memory)?; previous = statement.evaluate(context, manage_memory, scope)?;
} }
Ok(previous) Ok(previous)
@ -212,12 +216,14 @@ pub trait AbstractNode {
&self, &self,
context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError>; ) -> Result<(), ValidationError>;
fn evaluate( fn evaluate(
self, self,
context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError>; ) -> Result<Option<Evaluation>, RuntimeError>;
fn expected_type(&self, context: &Context) -> Result<Option<Type>, ValidationError>; fn expected_type(&self, context: &Context) -> Result<Option<Type>, ValidationError>;

View File

@ -62,35 +62,60 @@ impl AbstractNode for Statement {
&self, &self,
_context: &Context, _context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
log::trace!("Validating statement at {}", self.position()); log::trace!("Validating statement at {}", self.position());
match self { match self {
Statement::Assignment(assignment) => assignment Statement::Assignment(assignment) => {
assignment
.node .node
.define_and_validate(_context, _manage_memory), .define_and_validate(_context, _manage_memory, scope)
Statement::AsyncBlock(async_block) => async_block }
Statement::AsyncBlock(async_block) => {
async_block
.node .node
.define_and_validate(_context, _manage_memory), .define_and_validate(_context, _manage_memory, scope)
Statement::Block(block) => block.node.define_and_validate(_context, _manage_memory), }
Statement::Block(block) => {
block
.node
.define_and_validate(_context, _manage_memory, scope)
}
Statement::EnumDeclaration(enum_declaration) => enum_declaration Statement::EnumDeclaration(enum_declaration) => enum_declaration
.node .node
.define_and_validate(_context, _manage_memory), .define_and_validate(_context, _manage_memory, scope),
Statement::Expression(expression) => { Statement::Expression(expression) => {
expression.define_and_validate(_context, _manage_memory) expression.define_and_validate(_context, _manage_memory, scope)
} }
Statement::IfElse(if_else) => { Statement::IfElse(if_else) => {
if_else.node.define_and_validate(_context, _manage_memory) if_else
.node
.define_and_validate(_context, _manage_memory, scope)
}
Statement::Loop(r#loop) => {
r#loop
.node
.define_and_validate(_context, _manage_memory, scope)
} }
Statement::Loop(r#loop) => r#loop.node.define_and_validate(_context, _manage_memory),
Statement::StructureDefinition(struct_definition) => struct_definition Statement::StructureDefinition(struct_definition) => struct_definition
.node .node
.define_and_validate(_context, _manage_memory), .define_and_validate(_context, _manage_memory, scope),
Statement::TypeAlias(type_alias) => type_alias Statement::TypeAlias(type_alias) => {
type_alias
.node .node
.define_and_validate(_context, _manage_memory), .define_and_validate(_context, _manage_memory, scope)
Statement::While(r#while) => r#while.node.define_and_validate(_context, _manage_memory), }
Statement::Use(r#use) => r#use.node.define_and_validate(_context, _manage_memory), Statement::While(r#while) => {
r#while
.node
.define_and_validate(_context, _manage_memory, scope)
}
Statement::Use(r#use) => {
r#use
.node
.define_and_validate(_context, _manage_memory, scope)
}
Statement::Break(_) | Statement::Null(_) => Ok(()), Statement::Break(_) | Statement::Null(_) => Ok(()),
} }
} }
@ -99,27 +124,34 @@ impl AbstractNode for Statement {
self, self,
context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
log::trace!("Evaluating statement at {}", self.position()); log::trace!("Evaluating statement at {}", self.position());
let result = match self { let result = match self {
Statement::Assignment(assignment) => assignment.node.evaluate(context, manage_memory), Statement::Assignment(assignment) => {
Statement::AsyncBlock(async_block) => async_block.node.evaluate(context, manage_memory), assignment.node.evaluate(context, manage_memory, scope)
Statement::Block(block) => block.node.evaluate(context, manage_memory), }
Statement::AsyncBlock(async_block) => {
async_block.node.evaluate(context, manage_memory, scope)
}
Statement::Block(block) => block.node.evaluate(context, manage_memory, scope),
Statement::Break(_) => Ok(Some(Evaluation::Break)), Statement::Break(_) => Ok(Some(Evaluation::Break)),
Statement::Expression(expression) => expression.evaluate(context, manage_memory), Statement::Expression(expression) => expression.evaluate(context, manage_memory, scope),
Statement::IfElse(if_else) => if_else.node.evaluate(context, manage_memory), Statement::IfElse(if_else) => if_else.node.evaluate(context, manage_memory, scope),
Statement::Loop(r#loop) => r#loop.node.evaluate(context, manage_memory), Statement::Loop(r#loop) => r#loop.node.evaluate(context, manage_memory, scope),
Statement::Null(_) => Ok(None), Statement::Null(_) => Ok(None),
Statement::StructureDefinition(structure_definition) => { Statement::StructureDefinition(structure_definition) => structure_definition
structure_definition.node.evaluate(context, manage_memory) .node
.evaluate(context, manage_memory, scope),
Statement::TypeAlias(type_alias) => {
type_alias.node.evaluate(context, manage_memory, scope)
} }
Statement::TypeAlias(type_alias) => type_alias.node.evaluate(context, manage_memory),
Statement::EnumDeclaration(type_alias) => { Statement::EnumDeclaration(type_alias) => {
type_alias.node.evaluate(context, manage_memory) type_alias.node.evaluate(context, manage_memory, scope)
} }
Statement::While(r#while) => r#while.node.evaluate(context, manage_memory), Statement::While(r#while) => r#while.node.evaluate(context, manage_memory, scope),
Statement::Use(r#use) => r#use.node.evaluate(context, manage_memory), Statement::Use(r#use) => r#use.node.evaluate(context, manage_memory, scope),
}; };
if manage_memory { if manage_memory {

View File

@ -8,7 +8,7 @@ use crate::{
identifier::Identifier, identifier::Identifier,
}; };
use super::{AbstractNode, Evaluation, Type, TypeConstructor}; use super::{AbstractNode, Evaluation, SourcePosition, Type, TypeConstructor};
#[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)] #[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)]
pub struct StructureDefinition { pub struct StructureDefinition {
@ -23,7 +23,12 @@ impl StructureDefinition {
} }
impl AbstractNode for StructureDefinition { impl AbstractNode for StructureDefinition {
fn define_and_validate(&self, context: &Context, _: bool) -> Result<(), ValidationError> { fn define_and_validate(
&self,
context: &Context,
_: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> {
let mut fields = Vec::with_capacity(self.fields.len()); let mut fields = Vec::with_capacity(self.fields.len());
for (identifier, constructor) in &self.fields { for (identifier, constructor) in &self.fields {
@ -37,7 +42,7 @@ impl AbstractNode for StructureDefinition {
fields, fields,
}; };
context.set_type(self.name.clone(), struct_type)?; context.set_type(self.name.clone(), struct_type, scope)?;
Ok(()) Ok(())
} }
@ -46,6 +51,7 @@ impl AbstractNode for StructureDefinition {
self, self,
context: &Context, context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
let mut fields = Vec::with_capacity(self.fields.len()); let mut fields = Vec::with_capacity(self.fields.len());
@ -60,7 +66,7 @@ impl AbstractNode for StructureDefinition {
fields, fields,
}; };
context.set_type(self.name, struct_type)?; context.set_type(self.name, struct_type, scope)?;
Ok(None) Ok(None)
} }

View File

@ -325,9 +325,9 @@ mod tests {
let mut map = BTreeMap::new(); let mut map = BTreeMap::new();
map.insert(Identifier::new("x"), Type::Integer); map.insert(Identifier::from("x"), Type::Integer);
map.insert(Identifier::new("y"), Type::String); map.insert(Identifier::from("y"), Type::String);
map.insert(Identifier::new("z"), Type::Map(map.clone())); map.insert(Identifier::from("z"), Type::Map(map.clone()));
assert_eq!(Type::Map(map.clone()).check(&Type::Map(map)), Ok(())); assert_eq!(Type::Map(map.clone()).check(&Type::Map(map)), Ok(()));
assert_eq!(Type::Range.check(&Type::Range), Ok(())); assert_eq!(Type::Range.check(&Type::Range), Ok(()));

View File

@ -8,7 +8,7 @@ use crate::{
identifier::Identifier, identifier::Identifier,
}; };
use super::{AbstractNode, Evaluation, Type, TypeConstructor, WithPosition}; use super::{AbstractNode, Evaluation, SourcePosition, Type, TypeConstructor, WithPosition};
#[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)] #[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)]
pub struct TypeAlias { pub struct TypeAlias {
@ -26,15 +26,25 @@ impl TypeAlias {
} }
impl AbstractNode for TypeAlias { impl AbstractNode for TypeAlias {
fn define_and_validate(&self, context: &Context, _: bool) -> Result<(), ValidationError> { fn define_and_validate(
&self,
context: &Context,
_: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> {
let r#type = self.constructor.construct(&context)?; let r#type = self.constructor.construct(&context)?;
context.set_type(self.identifier.node.clone(), r#type)?; context.set_type(self.identifier.node.clone(), r#type, scope)?;
Ok(()) Ok(())
} }
fn evaluate(self, _: &Context, _: bool) -> Result<Option<Evaluation>, RuntimeError> { fn evaluate(
self,
_: &Context,
_: bool,
_: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> {
Ok(None) Ok(None)
} }

View File

@ -17,7 +17,7 @@ use crate::{
Type, Type,
}; };
use super::{AbstractNode, AbstractTree, Evaluation}; use super::{AbstractNode, AbstractTree, Evaluation, SourcePosition};
#[derive(Clone, Debug, Serialize, Deserialize)] #[derive(Clone, Debug, Serialize, Deserialize)]
pub struct Use { pub struct Use {
@ -41,6 +41,7 @@ impl AbstractNode for Use {
&self, &self,
context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
let abstract_tree = match self.path.as_str() { let abstract_tree = match self.path.as_str() {
"std.fs" => std_fs_compiled().clone(), "std.fs" => std_fs_compiled().clone(),
@ -59,7 +60,7 @@ impl AbstractNode for Use {
*self.abstract_tree.write()? = Some(abstract_tree); *self.abstract_tree.write()? = Some(abstract_tree);
if let Some(abstract_tree) = self.abstract_tree.read()?.as_ref() { if let Some(abstract_tree) = self.abstract_tree.read()?.as_ref() {
abstract_tree.define_and_validate(context, manage_memory) abstract_tree.define_and_validate(context, manage_memory, scope)
} else { } else {
Err(ValidationError::Uninitialized) Err(ValidationError::Uninitialized)
} }
@ -69,9 +70,12 @@ impl AbstractNode for Use {
self, self,
context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
if let Some(abstract_tree) = self.abstract_tree.read()?.as_ref() { if let Some(abstract_tree) = self.abstract_tree.read()?.as_ref() {
abstract_tree.clone().evaluate(context, manage_memory) abstract_tree
.clone()
.evaluate(context, manage_memory, scope)
} else { } else {
Err(RuntimeError::ValidationFailure( Err(RuntimeError::ValidationFailure(
ValidationError::Uninitialized, ValidationError::Uninitialized,

View File

@ -15,8 +15,8 @@ use crate::{
}; };
use super::{ use super::{
AbstractNode, Block, BuiltInFunction, Evaluation, Expression, Type, TypeConstructor, WithPos, AbstractNode, Block, BuiltInFunction, Evaluation, Expression, SourcePosition, Type,
WithPosition, TypeConstructor, WithPos, WithPosition,
}; };
#[derive(Clone, Debug, PartialEq, Serialize, Deserialize)] #[derive(Clone, Debug, PartialEq, Serialize, Deserialize)]
@ -53,7 +53,6 @@ impl ValueNode {
value_parameters, value_parameters,
return_type, return_type,
body, body,
validation_context: Context::new(None),
}) })
} }
} }
@ -63,6 +62,7 @@ impl AbstractNode for ValueNode {
&self, &self,
context: &Context, context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
if let ValueNode::List(list) = self { if let ValueNode::List(list) = self {
let mut items = list.into_iter(); let mut items = list.into_iter();
@ -76,7 +76,7 @@ impl AbstractNode for ValueNode {
}; };
for item in items { for item in items {
item.define_and_validate(context, _manage_memory)?; item.define_and_validate(context, _manage_memory, scope)?;
let item_type = if let Some(r#type) = item.expected_type(context)? { let item_type = if let Some(r#type) = item.expected_type(context)? {
r#type r#type
@ -102,7 +102,7 @@ impl AbstractNode for ValueNode {
{ {
if let Some(expressions) = content { if let Some(expressions) = content {
for expression in expressions { for expression in expressions {
expression.define_and_validate(context, _manage_memory)?; expression.define_and_validate(context, _manage_memory, scope)?;
} }
} }
@ -127,7 +127,7 @@ impl AbstractNode for ValueNode {
if let ValueNode::Map(map_assignments) = self { if let ValueNode::Map(map_assignments) = self {
for (_identifier, constructor_option, expression) in map_assignments { for (_identifier, constructor_option, expression) in map_assignments {
expression.define_and_validate(context, _manage_memory)?; expression.define_and_validate(context, _manage_memory, scope)?;
if let Some(constructor) = constructor_option { if let Some(constructor) = constructor_option {
let actual_type = if let Some(r#type) = expression.expected_type(context)? { let actual_type = if let Some(r#type) = expression.expected_type(context)? {
@ -155,45 +155,38 @@ impl AbstractNode for ValueNode {
if let ValueNode::Function(FunctionNode { if let ValueNode::Function(FunctionNode {
return_type, return_type,
body, body,
validation_context,
type_parameters, type_parameters,
value_parameters, value_parameters,
}) = self }) = self
{ {
let outer_context = context;
validation_context.set_parent(outer_context.clone())?;
if let Some(type_parameters) = type_parameters { if let Some(type_parameters) = type_parameters {
for identifier in type_parameters { for identifier in type_parameters {
validation_context.set_type( context.set_type(
identifier.clone(), identifier.clone(),
Type::Generic { Type::Generic {
identifier: identifier.clone(), identifier: identifier.clone(),
concrete_type: None, concrete_type: None,
}, },
body.position,
)?; )?;
} }
} }
if let Some(value_parameters) = value_parameters { if let Some(value_parameters) = value_parameters {
for (identifier, type_constructor) in value_parameters { for (identifier, type_constructor) in value_parameters {
let r#type = type_constructor.clone().construct(outer_context)?; let r#type = type_constructor.clone().construct(context)?;
validation_context.set_type(identifier.clone(), r#type)?; context.set_type(identifier.clone(), r#type, body.position)?;
} }
} }
body.node body.node
.define_and_validate(&validation_context, _manage_memory)?; .define_and_validate(context, _manage_memory, scope)?;
let ((expected_return, expected_position), actual_return) = let ((expected_return, expected_position), actual_return) =
match (return_type, body.node.expected_type(&validation_context)?) { match (return_type, body.node.expected_type(context)?) {
(Some(constructor), Some(r#type)) => ( (Some(constructor), Some(r#type)) => (
( (constructor.construct(context)?, constructor.position()),
constructor.construct(validation_context)?,
constructor.position(),
),
r#type, r#type,
), ),
(None, Some(_)) => { (None, Some(_)) => {
@ -238,7 +231,7 @@ impl AbstractNode for ValueNode {
}) = context.get_type(&name.node)? }) = context.get_type(&name.node)?
{ {
for ((_, expression), (_, expected_type)) in expressions.iter().zip(types.iter()) { for ((_, expression), (_, expected_type)) in expressions.iter().zip(types.iter()) {
expression.define_and_validate(context, _manage_memory)?; expression.define_and_validate(context, _manage_memory, scope)?;
let actual_type = if let Some(r#type) = expression.expected_type(context)? { let actual_type = if let Some(r#type) = expression.expected_type(context)? {
r#type r#type
@ -266,6 +259,7 @@ impl AbstractNode for ValueNode {
self, self,
context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
let value = match self { let value = match self {
ValueNode::Boolean(boolean) => Value::boolean(boolean), ValueNode::Boolean(boolean) => Value::boolean(boolean),
@ -279,7 +273,7 @@ impl AbstractNode for ValueNode {
for expression in expressions { for expression in expressions {
let position = expression.position(); let position = expression.position();
let evaluation = expression.evaluate(context, manage_memory)?; let evaluation = expression.evaluate(context, manage_memory, scope)?;
if let Some(Evaluation::Return(value)) = evaluation { if let Some(Evaluation::Return(value)) = evaluation {
values.push(value); values.push(value);
@ -303,7 +297,7 @@ impl AbstractNode for ValueNode {
for expression in expression_list { for expression in expression_list {
let position = expression.position(); let position = expression.position();
let evaluation = expression.evaluate(context, manage_memory)?; let evaluation = expression.evaluate(context, manage_memory, scope)?;
let value = if let Some(Evaluation::Return(value)) = evaluation { let value = if let Some(Evaluation::Return(value)) = evaluation {
value value
} else { } else {
@ -322,7 +316,7 @@ impl AbstractNode for ValueNode {
for (identifier, _type, expression) in property_list { for (identifier, _type, expression) in property_list {
let position = expression.position(); let position = expression.position();
let evaluation = expression.evaluate(context, manage_memory)?; let evaluation = expression.evaluate(context, manage_memory, scope)?;
let value = if let Some(Evaluation::Return(value)) = evaluation { let value = if let Some(Evaluation::Return(value)) = evaluation {
value value
} else { } else {
@ -375,7 +369,7 @@ impl AbstractNode for ValueNode {
for (identifier, expression) in expressions { for (identifier, expression) in expressions {
let position = expression.position(); let position = expression.position();
let evaluation = expression.evaluate(context, manage_memory)?; let evaluation = expression.evaluate(context, manage_memory, scope)?;
let value = if let Some(Evaluation::Return(value)) = evaluation { let value = if let Some(Evaluation::Return(value)) = evaluation {
value value
} else { } else {
@ -703,7 +697,6 @@ impl Display for ValueNode {
value_parameters, value_parameters,
return_type, return_type,
body, body,
validation_context: _,
}) => { }) => {
write!(f, "fn ")?; write!(f, "fn ")?;
@ -743,8 +736,6 @@ pub struct FunctionNode {
value_parameters: Option<Vec<(Identifier, TypeConstructor)>>, value_parameters: Option<Vec<(Identifier, TypeConstructor)>>,
return_type: Option<TypeConstructor>, return_type: Option<TypeConstructor>,
body: WithPosition<Block>, body: WithPosition<Block>,
#[serde(skip)]
validation_context: Context,
} }
impl PartialEq for FunctionNode { impl PartialEq for FunctionNode {

View File

@ -9,7 +9,7 @@ use crate::{
Value, Value,
}; };
use super::{AbstractNode, Evaluation, Expression, Statement, Type}; use super::{AbstractNode, Evaluation, Expression, SourcePosition, Statement, Type};
#[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)] #[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Serialize, Deserialize)]
pub struct While { pub struct While {
@ -31,11 +31,13 @@ impl AbstractNode for While {
&self, &self,
_context: &Context, _context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<(), ValidationError> { ) -> Result<(), ValidationError> {
self.expression.define_and_validate(_context, false)?; self.expression
.define_and_validate(_context, false, scope)?;
for statement in &self.statements { for statement in &self.statements {
statement.define_and_validate(_context, false)?; statement.define_and_validate(_context, false, scope)?;
} }
Ok(()) Ok(())
@ -45,13 +47,14 @@ impl AbstractNode for While {
self, self,
_context: &Context, _context: &Context,
_manage_memory: bool, _manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
let get_boolean = || -> Result<Value, RuntimeError> { let get_boolean = || -> Result<Value, RuntimeError> {
let expression_position = self.expression.position(); let expression_position = self.expression.position();
let evaluation = self let evaluation =
.expression self.expression
.clone() .clone()
.evaluate(&mut _context.clone(), false)?; .evaluate(&mut _context.clone(), false, scope)?;
if let Some(Evaluation::Return(value)) = evaluation { if let Some(Evaluation::Return(value)) = evaluation {
Ok(value) Ok(value)
@ -64,7 +67,9 @@ impl AbstractNode for While {
while let ValueInner::Boolean(true) = get_boolean()?.inner().as_ref() { while let ValueInner::Boolean(true) = get_boolean()?.inner().as_ref() {
for statement in &self.statements { for statement in &self.statements {
let evaluation = statement.clone().evaluate(&mut _context.clone(), false)?; let evaluation = statement
.clone()
.evaluate(&mut _context.clone(), false, scope)?;
if let Some(Evaluation::Break) = evaluation { if let Some(Evaluation::Break) = evaluation {
return Ok(evaluation); return Ok(evaluation);

View File

@ -5,7 +5,7 @@ use std::{
}; };
use crate::{ use crate::{
abstract_tree::Type, abstract_tree::{SourcePosition, Type},
error::{PoisonError, ValidationError}, error::{PoisonError, ValidationError},
identifier::Identifier, identifier::Identifier,
standard_library::core_context, standard_library::core_context,
@ -15,132 +15,63 @@ use crate::{
#[derive(Clone, Debug)] #[derive(Clone, Debug)]
pub struct Context { pub struct Context {
data: Arc<RwLock<ContextData>>, variables: Arc<RwLock<HashMap<Identifier, (VariableData, UsageData, SourcePosition)>>>,
is_clean: Arc<RwLock<bool>>, is_clean: Arc<RwLock<bool>>,
} }
#[derive(Clone, Debug)]
struct ContextData {
variables: HashMap<Identifier, (VariableData, UsageData)>,
parent: Option<Context>,
}
impl Context { impl Context {
pub fn new(parent: Option<Context>) -> Self { pub fn new() -> Self {
Context { Context {
data: Arc::new(RwLock::new(ContextData { variables: Arc::new(RwLock::new(HashMap::new())),
variables: HashMap::new(),
parent,
})),
is_clean: Arc::new(RwLock::new(true)), is_clean: Arc::new(RwLock::new(true)),
} }
} }
pub fn new_with_std_core(parent: Option<Context>) -> Result<Self, PoisonError> { pub fn new_with_std_core() -> Result<Self, PoisonError> {
let new = Context::with_variables_from(core_context())?; let new = Context::with_variables_from(core_context())?;
if let Some(context) = parent {
new.set_parent(context)?;
}
Ok(new) Ok(new)
} }
pub fn with_variables_from(other: &Context) -> Result<Self, PoisonError> { pub fn with_variables_from(other: &Context) -> Result<Self, PoisonError> {
let variables = other.data.read()?.variables.clone(); let variables = other.variables.read()?.clone();
Ok(Context { Ok(Context {
data: Arc::new(RwLock::new(ContextData { variables: Arc::new(RwLock::new(variables)),
variables,
parent: None,
})),
is_clean: Arc::new(RwLock::new(true)), is_clean: Arc::new(RwLock::new(true)),
}) })
} }
pub fn create_child(&self) -> Context { pub fn contains(
Context::new(Some(self.clone())) &self,
} identifier: &Identifier,
scope: SourcePosition,
pub fn set_parent(&self, parent: Context) -> Result<(), PoisonError> { ) -> Result<bool, ValidationError> {
self.data.write()?.parent = Some(parent);
Ok(())
}
pub fn contains(&self, identifier: &Identifier) -> Result<bool, ValidationError> {
log::trace!("Checking that {identifier} exists"); log::trace!("Checking that {identifier} exists");
let data = self.data.read()?; let variables = self.variables.read()?;
if let Some((_, _, variable_scope)) = variables.get(identifier) {
if scope.0 >= variable_scope.0 && scope.1 <= variable_scope.1 {
return Ok(true);
}
}
if let Some(_) = data.variables.get(identifier) {
Ok(true)
} else if let Some(parent) = &data.parent {
parent.contains_inheritable(identifier)
} else {
Ok(false) Ok(false)
} }
}
fn contains_inheritable(&self, identifier: &Identifier) -> Result<bool, ValidationError> {
let data = self.data.read()?;
if let Some((variable_data, _)) = data.variables.get(identifier) {
match variable_data {
VariableData::Type(Type::Enum { .. })
| VariableData::Type(Type::Function { .. })
| VariableData::Type(Type::Structure { .. }) => return Ok(true),
VariableData::Value(value) => match value.inner().as_ref() {
ValueInner::BuiltInFunction(_) | ValueInner::Function(_) => return Ok(true),
_ => {}
},
_ => {}
}
}
if let Some(parent) = &data.parent {
parent.contains_inheritable(identifier)
} else {
Ok(false)
}
}
pub fn get_type(&self, identifier: &Identifier) -> Result<Option<Type>, ValidationError> { pub fn get_type(&self, identifier: &Identifier) -> Result<Option<Type>, ValidationError> {
log::trace!("Getting {identifier}'s type"); log::trace!("Getting {identifier}'s type");
let data = self.data.read()?; let variables = self.variables.read()?;
if let Some((data, _)) = data.variables.get(identifier) { if let Some((data, _, _)) = variables.get(identifier) {
let r#type = match data { let r#type = match data {
VariableData::Type(r#type) => r#type.clone(), VariableData::Type(r#type) => r#type.clone(),
VariableData::Value(value) => value.r#type(self)?, VariableData::Value(value) => value.r#type(self)?,
}; };
Ok(Some(r#type.clone())) Ok(Some(r#type.clone()))
} else if let Some(parent) = &data.parent {
parent.get_inheritable_type(identifier)
} else {
Ok(None)
}
}
fn get_inheritable_type(
&self,
identifier: &Identifier,
) -> Result<Option<Type>, ValidationError> {
let data = self.data.read()?;
if let Some(r#type) = self.get_type(identifier)? {
match r#type {
Type::Enum { .. } | Type::Function { .. } | Type::Structure { .. } => {
return Ok(Some(r#type))
}
_ => {}
}
}
if let Some(parent) = &data.parent {
parent.get_inheritable_type(identifier)
} else { } else {
Ok(None) Ok(None)
} }
@ -149,37 +80,13 @@ impl Context {
pub fn use_value(&self, identifier: &Identifier) -> Result<Option<Value>, PoisonError> { pub fn use_value(&self, identifier: &Identifier) -> Result<Option<Value>, PoisonError> {
log::trace!("Using {identifier}'s value"); log::trace!("Using {identifier}'s value");
let data = self.data.read()?; let variables = self.variables.read()?;
if let Some((VariableData::Value(value), usage_data)) = data.variables.get(identifier) { if let Some((VariableData::Value(value), usage_data, _)) = variables.get(identifier) {
usage_data.inner().write()?.actual += 1; usage_data.inner().write()?.actual += 1;
*self.is_clean.write()? = false; *self.is_clean.write()? = false;
return Ok(Some(value.clone())); return Ok(Some(value.clone()));
} else if let Some(parent) = &data.parent {
parent.use_inheritable_value(identifier)
} else {
Ok(None)
}
}
fn use_inheritable_value(&self, identifier: &Identifier) -> Result<Option<Value>, PoisonError> {
let data = self.data.read()?;
if let Some((VariableData::Value(value), usage_data)) = data.variables.get(identifier) {
match value.inner().as_ref() {
ValueInner::BuiltInFunction(_) | ValueInner::Function(_) => {
usage_data.inner().write()?.actual += 1;
*self.is_clean.write()? = false;
return Ok(Some(value.clone()));
}
_ => {}
}
}
if let Some(parent) = &data.parent {
parent.use_inheritable_value(identifier)
} else { } else {
Ok(None) Ok(None)
} }
@ -188,62 +95,49 @@ impl Context {
pub fn get_value(&self, identifier: &Identifier) -> Result<Option<Value>, PoisonError> { pub fn get_value(&self, identifier: &Identifier) -> Result<Option<Value>, PoisonError> {
log::trace!("Getting {identifier}'s value"); log::trace!("Getting {identifier}'s value");
let data = self.data.read()?; let variables = self.variables.read()?;
if let Some((VariableData::Value(value), _)) = data.variables.get(identifier) { if let Some((VariableData::Value(value), _, _)) = variables.get(identifier) {
Ok(Some(value.clone())) Ok(Some(value.clone()))
} else if let Some(parent) = &data.parent {
parent.get_inheritable_value(identifier)
} else { } else {
Ok(None) Ok(None)
} }
} }
fn get_inheritable_value(&self, identifier: &Identifier) -> Result<Option<Value>, PoisonError> { pub fn set_type(
if let Some(value) = self.get_value(identifier)? { &self,
match value.inner().as_ref() { identifier: Identifier,
ValueInner::BuiltInFunction(_) | ValueInner::Function(_) => return Ok(Some(value)), r#type: Type,
_ => {} scope: SourcePosition,
} ) -> Result<(), PoisonError> {
}
let data = self.data.read()?;
if let Some(parent) = &data.parent {
parent.get_inheritable_value(identifier)
} else {
Ok(None)
}
}
pub fn set_type(&self, identifier: Identifier, r#type: Type) -> Result<(), PoisonError> {
log::debug!("Setting {identifier} to type {}", r#type); log::debug!("Setting {identifier} to type {}", r#type);
let mut data = self.data.write()?; let mut variables = self.variables.write()?;
let usage_data = data let (usage_data, scope) = variables
.variables
.remove(&identifier) .remove(&identifier)
.map(|(_, usage_data)| usage_data) .map(|(_, old_usage_data, old_scope)| (old_usage_data, old_scope))
.unwrap_or_else(|| UsageData::new()); .unwrap_or_else(|| (UsageData::new(), scope));
data.variables variables.insert(identifier, (VariableData::Type(r#type), usage_data, scope));
.insert(identifier, (VariableData::Type(r#type), usage_data));
Ok(()) Ok(())
} }
pub fn set_value(&self, identifier: Identifier, value: Value) -> Result<(), PoisonError> { pub fn set_value(
&self,
identifier: Identifier,
value: Value,
scope: SourcePosition,
) -> Result<(), PoisonError> {
log::debug!("Setting {identifier} to value {value}"); log::debug!("Setting {identifier} to value {value}");
let mut data = self.data.write()?; let mut variables = self.variables.write()?;
let usage_data = data let (usage_data, scope) = variables
.variables
.remove(&identifier) .remove(&identifier)
.map(|(_, usage_data)| usage_data) .map(|(_, old_usage_data, old_scope)| (old_usage_data, old_scope))
.unwrap_or_else(|| UsageData::new()); .unwrap_or_else(|| (UsageData::new(), scope));
data.variables variables.insert(identifier, (VariableData::Value(value), usage_data, scope));
.insert(identifier, (VariableData::Value(value), usage_data));
Ok(()) Ok(())
} }
@ -251,48 +145,12 @@ impl Context {
pub fn add_expected_use(&self, identifier: &Identifier) -> Result<bool, PoisonError> { pub fn add_expected_use(&self, identifier: &Identifier) -> Result<bool, PoisonError> {
log::trace!("Adding expected use for variable {identifier}"); log::trace!("Adding expected use for variable {identifier}");
let data = self.data.read()?; let variables = self.variables.read()?;
if let Some((_, usage_data)) = data.variables.get(identifier) { if let Some((_, usage_data, _)) = variables.get(identifier) {
usage_data.inner().write()?.expected += 1; usage_data.inner().write()?.expected += 1;
return Ok(true); return Ok(true);
} else if let Some(parent) = &data.parent {
parent.add_expected_use_for_inheritable(identifier)
} else {
Ok(false)
}
}
fn add_expected_use_for_inheritable(
&self,
identifier: &Identifier,
) -> Result<bool, PoisonError> {
let data = self.data.read()?;
if let Some((variable_data, usage_data)) = data.variables.get(identifier) {
match variable_data {
VariableData::Type(Type::Enum { .. })
| VariableData::Type(Type::Function { .. })
| VariableData::Type(Type::Structure { .. }) => {
usage_data.inner().write()?.expected += 1;
return Ok(true);
}
VariableData::Value(value) => match value.inner().as_ref() {
ValueInner::BuiltInFunction(_) | ValueInner::Function(_) => {
usage_data.inner().write()?.expected += 1;
return Ok(true);
}
_ => {}
},
_ => {}
}
}
if let Some(parent) = &data.parent {
parent.add_expected_use_for_inheritable(identifier)
} else { } else {
Ok(false) Ok(false)
} }
@ -303,8 +161,8 @@ impl Context {
return Ok(()); return Ok(());
} }
self.data.write()?.variables.retain( self.variables.write()?.retain(
|identifier, (value_data, usage_data)| match value_data { |identifier, (value_data, usage_data, _)| match value_data {
VariableData::Type(_) => true, VariableData::Type(_) => true,
VariableData::Value(_) => { VariableData::Value(_) => {
let usage = usage_data.inner().read().unwrap(); let usage = usage_data.inner().read().unwrap();
@ -332,7 +190,7 @@ impl Context {
impl Default for Context { impl Default for Context {
fn default() -> Self { fn default() -> Self {
Context::new(None) Context::new()
} }
} }

View File

@ -1,40 +1,46 @@
use std::{ use std::{
collections::HashMap, collections::HashMap,
fmt::{self, Display, Formatter}, fmt::{self, Display, Formatter},
hash::{Hash, Hasher},
sync::{Arc, OnceLock, RwLock}, sync::{Arc, OnceLock, RwLock},
}; };
use serde::{de::Visitor, Deserialize, Serialize}; use serde::{de::Visitor, Deserialize, Serialize};
use crate::abstract_tree::SourcePosition;
static IDENTIFIER_CACHE: OnceLock<RwLock<HashMap<String, Identifier>>> = OnceLock::new(); static IDENTIFIER_CACHE: OnceLock<RwLock<HashMap<String, Identifier>>> = OnceLock::new();
fn identifier_cache<'a>() -> &'a RwLock<HashMap<String, Identifier>> { fn identifier_cache<'a>() -> &'a RwLock<HashMap<String, Identifier>> {
IDENTIFIER_CACHE.get_or_init(|| RwLock::new(HashMap::new())) IDENTIFIER_CACHE.get_or_init(|| RwLock::new(HashMap::new()))
} }
#[derive(Clone, Debug, Hash, Eq, PartialEq, PartialOrd, Ord)] #[derive(Clone, Debug, Eq, PartialEq, PartialOrd, Ord, Hash)]
pub struct Identifier(Arc<String>); pub struct Identifier(Arc<String>);
impl Identifier { impl Identifier {
pub fn new(text: &str) -> Self { pub fn new(text: &str, scope: Option<SourcePosition>) -> Self {
let cache = identifier_cache(); let cache = identifier_cache();
if let Some(identifier) = cache.read().unwrap().get(text) { if let Some(identifier) = cache.read().unwrap().get(text).cloned() {
return identifier.clone(); return identifier;
} }
let identifier = Identifier(Arc::new(text.to_string())); let new = Identifier(Arc::new(text.to_string()));
cache cache.write().unwrap().insert(text.to_string(), new.clone());
.write()
.unwrap()
.insert(text.to_string(), identifier.clone());
identifier new
} }
pub fn as_str(&self) -> &str { pub fn as_str(&self) -> &str {
self.0.as_str() &self.0.as_str()
}
}
impl From<&str> for Identifier {
fn from(text: &str) -> Self {
Identifier::new(text, None)
} }
} }
@ -82,7 +88,7 @@ impl<'de> Visitor<'de> for IdentifierVisitor {
where where
E: serde::de::Error, E: serde::de::Error,
{ {
Ok(Identifier::new(v)) Ok(Identifier::new(v, None))
} }
fn visit_borrowed_str<E>(self, v: &'de str) -> Result<Self::Value, E> fn visit_borrowed_str<E>(self, v: &'de str) -> Result<Self::Value, E>

View File

@ -24,7 +24,7 @@ use lexer::{lex, Token};
use parser::{parse, parser}; use parser::{parse, parser};
pub fn interpret(source_id: &str, source: &str) -> Result<Option<Value>, InterpreterError> { pub fn interpret(source_id: &str, source: &str) -> Result<Option<Value>, InterpreterError> {
let interpreter = Interpreter::new(Context::new(None)); let interpreter = Interpreter::new(Context::new());
interpreter.run(Arc::from(source_id), Arc::from(source)) interpreter.run(Arc::from(source_id), Arc::from(source))
} }
@ -448,7 +448,7 @@ mod tests {
#[test] #[test]
fn load_standard_library() { fn load_standard_library() {
let context = Context::new(None); let context = Context::new();
for abstract_tree in std_full_compiled() { for abstract_tree in std_full_compiled() {
abstract_tree.run(&context, true).unwrap(); abstract_tree.run(&context, true).unwrap();

View File

@ -42,7 +42,7 @@ pub fn parser<'src>(
Token::Comment(_) => {} Token::Comment(_) => {}
}; };
let identifier = select! { let identifier = select! {
Token::Identifier(text) => Identifier::new(text), Token::Identifier(text) => Identifier::from(text),
}; };
let positioned_identifier = identifier let positioned_identifier = identifier

View File

@ -1,7 +1,7 @@
use std::sync::{Arc, OnceLock}; use std::sync::{Arc, OnceLock};
use crate::{ use crate::{
abstract_tree::{AbstractNode, AbstractTree}, abstract_tree::{AbstractNode, AbstractTree, SourcePosition},
context::Context, context::Context,
lexer::lex, lexer::lex,
parser, parser,
@ -28,14 +28,15 @@ static CORE_CONTEXT: OnceLock<Context> = OnceLock::new();
pub fn core_context<'a>() -> &'a Context { pub fn core_context<'a>() -> &'a Context {
CORE_CONTEXT.get_or_init(|| { CORE_CONTEXT.get_or_init(|| {
let context = Context::new(None); let context = Context::new();
let std_core = std_core_compiled().clone(); let std_core = std_core_compiled().clone();
let global_scope = SourcePosition(0, usize::MAX);
std_core std_core
.define_and_validate(&context, true) .define_and_validate(&context, true, global_scope)
.expect("Failed to validate std.core"); .expect("Failed to validate std.core");
std_core std_core
.evaluate(&context, true) .evaluate(&context, true, global_scope)
.expect("Failed to evaluate std.core"); .expect("Failed to evaluate std.core");
context context

View File

@ -14,7 +14,9 @@ use serde::{
}; };
use crate::{ use crate::{
abstract_tree::{AbstractNode, Block, BuiltInFunction, Evaluation, Type, WithPosition}, abstract_tree::{
AbstractNode, Block, BuiltInFunction, Evaluation, SourcePosition, Type, WithPosition,
},
context::Context, context::Context,
error::{RuntimeError, ValidationError}, error::{RuntimeError, ValidationError},
identifier::Identifier, identifier::Identifier,
@ -778,7 +780,10 @@ impl Function {
self, self,
context: &Context, context: &Context,
manage_memory: bool, manage_memory: bool,
scope: SourcePosition,
) -> Result<Option<Evaluation>, RuntimeError> { ) -> Result<Option<Evaluation>, RuntimeError> {
self.body.evaluate(context, manage_memory) self.body
.define_and_validate(context, manage_memory, scope)?;
self.body.evaluate(context, manage_memory, scope)
} }
} }

View File

@ -56,7 +56,7 @@ fn main() {
.init(); .init();
let args = Args::parse(); let args = Args::parse();
let context = Context::new_with_std_core(None).unwrap(); let context = Context::new_with_std_core().unwrap();
let interpreter = Interpreter::new(context.clone()); let interpreter = Interpreter::new(context.clone());
let (source_id, source): (Arc<str>, Arc<str>) = if let Some(path) = args.path { let (source_id, source): (Arc<str>, Arc<str>) = if let Some(path) = args.path {