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dust/dust-lang/src/lib.rs

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Rust
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pub mod abstract_tree;
pub mod context;
pub mod error;
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pub mod identifier;
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pub mod lexer;
pub mod parser;
pub mod standard_library;
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pub mod value;
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use std::{
ops::Range,
sync::{Arc, RwLock},
vec,
};
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pub use abstract_tree::Type;
pub use value::Value;
use abstract_tree::AbstractTree;
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use ariadne::{Color, Fmt, Label, Report, ReportKind};
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use context::Context;
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use error::{DustError, RuntimeError, TypeConflict, ValidationError};
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use lexer::{lex, Token};
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use parser::{parse, parser};
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pub fn interpret(source_id: &str, source: &str) -> Result<Option<Value>, InterpreterError> {
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let interpreter = Interpreter::new(Context::new(None));
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interpreter.run(Arc::from(source_id), Arc::from(source))
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}
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pub struct Interpreter {
context: Context,
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sources: Arc<RwLock<Vec<(Arc<str>, Arc<str>)>>>,
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}
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impl Interpreter {
pub fn new(context: Context) -> Self {
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Interpreter {
context,
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sources: Arc::new(RwLock::new(Vec::new())),
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}
}
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pub fn lex<'src>(
&self,
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source_id: Arc<str>,
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source: &'src str,
) -> Result<Vec<Token<'src>>, InterpreterError> {
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let mut sources = self.sources.write().unwrap();
sources.clear();
sources.push((source_id.clone(), Arc::from(source)));
lex(source.as_ref())
.map(|tokens| tokens.into_iter().map(|(token, _)| token).collect())
.map_err(|errors| InterpreterError { source_id, errors })
}
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pub fn parse<'src>(
&self,
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source_id: Arc<str>,
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source: &'src str,
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) -> Result<AbstractTree, InterpreterError> {
let mut sources = self.sources.write().unwrap();
sources.clear();
sources.push((source_id.clone(), Arc::from(source)));
parse(&lex(source).map_err(|errors| InterpreterError {
source_id: source_id.clone(),
errors,
})?)
.map_err(|errors| InterpreterError { source_id, errors })
}
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pub fn run(
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&self,
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source_id: Arc<str>,
source: Arc<str>,
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) -> Result<Option<Value>, InterpreterError> {
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let mut sources = self.sources.write().unwrap();
sources.clear();
sources.push((source_id.clone(), source.clone()));
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let tokens = lex(source.as_ref()).map_err(|errors| InterpreterError {
source_id: source_id.clone(),
errors,
})?;
let abstract_tree = parse(&tokens).map_err(|errors| InterpreterError {
source_id: source_id.clone(),
errors,
})?;
let value_option = abstract_tree
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.run(&self.context, true)
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.map_err(|errors| InterpreterError { source_id, errors })?;
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Ok(value_option)
}
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pub fn sources(&self) -> vec::IntoIter<(Arc<str>, Arc<str>)> {
self.sources.read().unwrap().clone().into_iter()
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}
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}
#[derive(Debug, PartialEq)]
pub struct InterpreterError {
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source_id: Arc<str>,
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errors: Vec<DustError>,
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}
impl InterpreterError {
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pub fn errors(&self) -> &Vec<DustError> {
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&self.errors
}
}
impl InterpreterError {
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pub fn build_reports<'a>(self) -> Vec<Report<'a, (Arc<str>, Range<usize>)>> {
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let token_color = Color::Yellow;
let type_color = Color::Green;
let identifier_color = Color::Blue;
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let mut reports = Vec::new();
for error in self.errors {
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let (mut builder, validation_error) = match error {
DustError::Lex {
expected,
span,
reason,
} => {
let description = if expected.is_empty() {
"Invalid character.".to_string()
} else {
format!("Expected {expected}.")
};
(
Report::build(
ReportKind::Custom("Lexing Error", Color::Yellow),
self.source_id.clone(),
span.1,
)
.with_message(description)
.with_label(
Label::new((self.source_id.clone(), span.0..span.1))
.with_message(reason)
.with_color(Color::Red),
),
None,
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)
}
DustError::Parse {
expected,
span,
found,
} => {
let description = if expected.is_empty() {
"Invalid token.".to_string()
} else {
format!("Expected {expected}.")
};
let found = found
.unwrap_or_else(|| "End of input".to_string())
.fg(token_color);
(
Report::build(
ReportKind::Custom("Parsing Error", Color::Yellow),
self.source_id.clone(),
span.1,
)
.with_message(description)
.with_label(
Label::new((self.source_id.clone(), span.0..span.1))
.with_message(format!("{found} is not valid in this position."))
.with_color(Color::Red),
),
None,
)
}
DustError::Validation { error, position } => (
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Report::build(
ReportKind::Custom("Validation Error", Color::Magenta),
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self.source_id.clone(),
position.1,
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)
.with_message("The syntax is valid but this code would cause an error.")
.with_note(
"This error was detected by the interpreter before running the code.",
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),
Some(error),
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),
DustError::Runtime { error, position } => {
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let note = match &error {
RuntimeError::Io(io_error) => &io_error.to_string(),
RuntimeError::RwLockPoison(_) => todo!(),
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RuntimeError::ValidationFailure(_) => {
"This is the interpreter's fault. Please submit a bug with this error message."
}
RuntimeError::SerdeJson(serde_json_error) => &serde_json_error.to_string(),
RuntimeError::Use(_) => todo!(),
};
(
Report::build(
ReportKind::Custom("Runtime Error", Color::Red),
self.source_id.clone(),
position.1,
)
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.with_message("An error occured that forced the program to exit. There may be unexpected side-effects because the program could not finish.")
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.with_note(note)
.with_label(
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Label::new((self.source_id.clone(), position.0..position.1)).with_message("Error occured here.")
),
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if let RuntimeError::ValidationFailure(validation_error) = error {
Some(validation_error)
} else {
None
},
)
}
};
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if let Some(validation_error) = validation_error {
match validation_error {
ValidationError::CannotAssignToNone(postion) => {
builder.add_label(
Label::new((self.source_id.clone(), postion.0..postion.1))
.with_message(format!(
"This statement does not yield a value, you cannot assign a variable to it."
)),
);
}
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ValidationError::ExpectedBoolean { actual, position } => {
builder.add_label(
Label::new((self.source_id.clone(), position.0..position.1))
.with_message(format!(
"Expected {} but got {}.",
"boolean".fg(type_color),
actual.fg(type_color)
)),
);
}
ValidationError::ExpectedIntegerOrFloat(position) => {
builder.add_label(
Label::new((self.source_id.clone(), position.0..position.1))
.with_message(format!(
"Expected {} or {}.",
"integer".fg(type_color),
"float".fg(type_color)
)),
);
}
ValidationError::FullTypeNotKnown {
identifier,
position,
} => builder.add_label(
Label::new((self.source_id.clone(), position.0..position.1)).with_message(
format!(
"The full type for {} must be known.",
identifier.fg(identifier_color)
),
),
),
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ValidationError::RwLockPoison(_) => todo!(),
ValidationError::TypeCheck {
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conflict: TypeConflict { actual, expected },
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actual_position,
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expected_position,
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} => {
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if let Type::Generic {
concrete_type: None,
..
} = actual
{
builder = builder.with_help("Try specifying the type using turbofish.");
}
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if let Some(position) = expected_position {
builder.add_label(
Label::new((self.source_id.clone(), position.0..position.1))
.with_message(format!(
"Type {} established here.",
expected.fg(type_color)
)),
)
}
builder.add_label(
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Label::new((
self.source_id.clone(),
actual_position.0..actual_position.1,
))
.with_message(format!("Got type {} here.", actual.fg(type_color))),
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);
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}
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ValidationError::VariableNotFound {
identifier,
position,
} => builder.add_label(
Label::new((self.source_id.clone(), position.0..position.1)).with_message(
format!(
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"Variable {} does not exist in this context.",
identifier.fg(identifier_color)
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),
),
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),
ValidationError::CannotIndex { r#type, position } => builder.add_label(
Label::new((self.source_id.clone(), position.0..position.1)).with_message(
format!("Cannot index into a {}.", r#type.fg(type_color)),
),
),
ValidationError::CannotIndexWith {
collection_type,
collection_position,
index_type,
index_position,
} => {
builder = builder.with_message(format!(
"Cannot index into {} with {}.",
collection_type.clone().fg(type_color),
index_type.clone().fg(type_color)
));
builder.add_labels([
Label::new((
self.source_id.clone(),
collection_position.0..collection_position.1,
))
.with_message(format!(
"This has type {}.",
collection_type.fg(type_color),
)),
Label::new((
self.source_id.clone(),
index_position.0..index_position.1,
))
.with_message(format!("This has type {}.", index_type.fg(type_color),)),
])
}
ValidationError::ExpectedValueStatement(position) => builder.add_label(
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Label::new((self.source_id.clone(), position.0..position.1))
.with_message("Expected a statement that yields a value."),
),
ValidationError::ExpectedNonValueStatement(position) => builder.add_label(
Label::new((self.source_id.clone(), position.0..position.1))
.with_message("Expected a statement that does not yield a value."),
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),
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ValidationError::ExpectedFunction { actual, position } => builder.add_label(
Label::new((self.source_id.clone(), position.0..position.1)).with_message(
format!(
"Expected a function value but got {}.",
actual.fg(type_color)
),
),
),
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ValidationError::FieldNotFound {
identifier,
position,
} => builder.add_label(
Label::new((self.source_id.clone(), position.0..position.1)).with_message(
format!(
"This map has no field named {}.",
identifier.fg(identifier_color)
),
),
),
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ValidationError::WrongTypeArguments {
parameters,
arguments,
} => {
builder = builder.with_message(format!(
"Expected {parameters:?} arguments but got {arguments:?}."
));
}
ValidationError::WrongValueArguments {
parameters,
arguments,
} => {
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builder = builder.with_message(format!(
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"Expected {parameters:?} arguments but got {arguments:?}."
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));
}
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ValidationError::ExpectedIntegerFloatOrString { actual, position } => {
builder = builder.with_message(format!(
"Expected an {}, {} or {}.",
Type::Integer.fg(type_color),
Type::Float.fg(type_color),
Type::String.fg(type_color)
));
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builder.add_label(
Label::new((self.source_id.clone(), position.0..position.1))
.with_message(format!("This has type {}.", actual.fg(type_color),)),
)
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}
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ValidationError::ExpectedString { .. } => todo!(),
ValidationError::EnumDefinitionNotFound {
identifier,
position,
} => {
let message = format!(
"The enum {} does not exist in this context.",
identifier.fg(identifier_color),
);
if let Some(position) = position {
builder.add_label(
Label::new((self.source_id.clone(), position.0..position.1))
.with_message(message),
)
} else {
builder = builder.with_message(message);
}
}
ValidationError::EnumVariantNotFound { .. } => todo!(),
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ValidationError::ExpectedList { .. } => todo!(),
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ValidationError::BuiltInFunctionFailure(reason) => builder
.add_label(Label::new((self.source_id.clone(), 0..0)).with_message(reason)),
ValidationError::CannotUsePath(_) => todo!(),
ValidationError::Uninitialized => todo!(),
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}
}
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let report = builder.finish();
reports.push(report);
}
reports
}
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}
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#[cfg(test)]
mod tests {
use self::standard_library::std_full_compiled;
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use super::*;
#[test]
fn load_standard_library() {
let context = Context::new(None);
for abstract_tree in std_full_compiled() {
abstract_tree.run(&context, true).unwrap();
}
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}
}