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Author SHA1 Message Date
b476818ba3 Implement assignment 2023-10-01 02:43:27 -04:00
1f829d930a Change syntax 2023-09-30 22:59:15 -04:00
5 changed files with 105 additions and 117 deletions

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@ -15,6 +15,7 @@ pub enum Error {
UnexpectedSourceNode {
expected: &'static str,
actual: &'static str,
location: tree_sitter::Point,
},
ExpectedFieldName,
@ -552,7 +553,7 @@ impl fmt::Display for Error {
macro_info.identifier,
macro_info.inputs
),
UnexpectedSourceNode { expected, actual } => write!(f, "Unexpected source node. Expected {expected}, but found {actual}."),
UnexpectedSourceNode { expected, actual, location } => write!(f, "Unexpected syntax at {location}. Expected {expected}, but found {actual}."),
ExpectedFieldName => write!(f, "Expected a field name for this node, but none was found."),
WrongTypeCombination { expected, actual } => write!(f, "Wrong type combination. Expected {expected}, found {actual}."),
ExpectedChildNode { empty_node_sexp } => write!(f, "Expected this node to have a child, {empty_node_sexp}."),

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@ -1,4 +1,8 @@
//! The top level of Dust's API with functions to interpret Dust code.
//!
//! You can use this library externally by calling either of the "eval"
//! functions or by constructing your own Evaluator.
use std::fmt::{self, Debug, Formatter};
use serde::{Deserialize, Serialize};
use tree_sitter::{Node, Parser, Tree as TSTree, TreeCursor};
@ -30,9 +34,9 @@ pub fn eval(source: &str) -> Vec<Result<Value>> {
/// # use dust_lib::*;
/// let mut context = VariableMap::new();
///
/// context.set_value("one".into(), 1.into()).unwrap(); // Do proper error handling here
/// context.set_value("two".into(), 2.into()).unwrap(); // Do proper error handling here
/// context.set_value("three".into(), 3.into()).unwrap(); // Do proper error handling here
/// context.set_value("one".into(), 1.into());
/// context.set_value("two".into(), 2.into());
/// context.set_value("three".into(), 3.into());
///
/// let dust_code = "four = 4 one + two + three + four";
///
@ -43,20 +47,12 @@ pub fn eval(source: &str) -> Vec<Result<Value>> {
/// ```
pub fn eval_with_context(source: &str, context: &mut VariableMap) -> Vec<Result<Value>> {
let mut parser = Parser::new();
parser.set_language(language()).unwrap();
let tree = parser.parse(source, None).unwrap();
let mut cursor = tree.walk();
let evaluator = Evaluator::new(tree.clone(), source).unwrap();
let results = evaluator.run(context, &mut cursor, source);
println!("{results:?}");
results
Evaluator::new(parser, context, source).run()
}
pub trait EvaluatorTree: Sized {
trait EvaluatorTree: Sized {
/// Interpret the syntax tree at the given node and return the abstraction.
///
/// This function is used to convert nodes in the Tree Sitter concrete
@ -69,33 +65,51 @@ pub trait EvaluatorTree: Sized {
fn new(node: Node, source: &str) -> Result<Self>;
/// Execute dust code by traversing the tree
fn run(
&self,
context: &mut VariableMap,
cursor: &mut TreeCursor,
source: &str,
) -> Vec<Result<Value>>;
fn run() -> Vec<Result<Value>>;
}
/// A collection of statements and comments interpreted from a syntax tree.
///
/// The Evaluator turns a tree sitter concrete syntax tree into a vector of
/// abstract trees called [Item][]s that can be run to execute the source code.
#[derive(Debug)]
pub struct Evaluator {
items: Vec<Item>,
pub struct Evaluator<'context, 'code> {
_parser: Parser,
context: &'context mut VariableMap,
source: &'code str,
tree: TSTree,
}
impl Evaluator {
fn new(tree_sitter_tree: TSTree, source: &str) -> Result<Self> {
let root_node = tree_sitter_tree.root_node();
let mut cursor = tree_sitter_tree.walk();
impl Debug for Evaluator<'_, '_> {
fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result {
write!(f, "Evaluator context: {}", self.context)
}
}
impl<'context, 'code> Evaluator<'context, 'code> {
fn new(mut parser: Parser, context: &'context mut VariableMap, source: &'code str) -> Self {
let tree = parser.parse(source, None).unwrap();
Evaluator {
_parser: parser,
context,
source,
tree,
}
}
fn run(self) -> Vec<Result<Value>> {
let root_node = self.tree.root_node();
let mut cursor = self.tree.walk();
let mut items = Vec::new();
let mut results = Vec::new();
for (index, node) in root_node.children(&mut cursor).enumerate() {
let item = Item::new(node, source)?;
match Item::new(node, self.source) {
Ok(item) => items.push(item),
Err(error) => results.push(Err(error)),
}
items.push(item);
println!("{node:?}");
// This iterator will run forever without this check.
if index == root_node.child_count() - 1 {
@ -103,22 +117,11 @@ impl Evaluator {
}
}
Ok(Evaluator { items })
}
fn run(
&self,
context: &mut VariableMap,
mut cursor: &mut TreeCursor,
source: &str,
) -> Vec<Result<Value>> {
let mut results = Vec::with_capacity(self.items.len());
for item in &self.items {
for item in &items {
match item {
Item::Comment(comment) => results.push(Ok(Value::String(comment.clone()))),
Item::Comment(comment) => results.push(Ok(Value::String(comment.to_string()))),
Item::Statement(statement) => {
results.push(statement.run(context, &mut cursor, source))
results.push(statement.run(self.context, &mut cursor, self.source))
}
}
}
@ -144,6 +147,7 @@ impl Item {
return Err(Error::UnexpectedSourceNode {
expected: "item",
actual: node.kind(),
location: node.start_position(),
});
}
@ -151,9 +155,9 @@ impl Item {
if child.kind() == "comment" {
let byte_range = node.byte_range();
let value_string = &source[byte_range];
let comment_text = &source[byte_range];
Ok(Item::Comment(value_string.to_string()))
Ok(Item::Comment(comment_text.to_string()))
} else if child.kind() == "statement" {
let child = node.child(0).unwrap();
Ok(Item::Statement(Statement::new(child, source)?))
@ -161,6 +165,7 @@ impl Item {
Err(Error::UnexpectedSourceNode {
expected: "comment or statement",
actual: node.kind(),
location: node.start_position(),
})
}
}
@ -173,7 +178,7 @@ impl Item {
/// referencing variables.
#[derive(Debug, Clone, Serialize, Deserialize, Eq, PartialEq, PartialOrd, Ord)]
pub enum Statement {
Open(Expression),
Expression(Expression),
}
impl Statement {
@ -183,13 +188,15 @@ impl Statement {
} else {
node
};
let child = node.child(0).unwrap();
match node.kind() {
"open_statement" => Ok(Self::Open(Expression::new(child, source)?)),
"expression" => Ok(Self::Expression(Expression::new(child, source)?)),
_ => Err(Error::UnexpectedSourceNode {
expected: "open_statement",
expected: "expression",
actual: node.kind(),
location: node.start_position(),
}),
}
}
@ -201,7 +208,7 @@ impl Statement {
source: &str,
) -> Result<Value> {
match self {
Statement::Open(expression) => expression.run(context, &mut cursor, source),
Statement::Expression(expression) => expression.run(context, &mut cursor, source),
}
}
}
@ -210,8 +217,31 @@ impl Statement {
pub enum Expression {
Identifier(String),
Value(Value),
Operation(Box<Operation>),
ControlFlow(Box<ControlFlow>),
Assignment(Box<Assignment>),
}
#[derive(Debug, Clone, Serialize, Deserialize, Eq, PartialEq, PartialOrd, Ord)]
pub struct Assignment {
identifier: String,
statement: Statement,
}
impl Assignment {
pub fn new(node: Node, source: &str) -> Result<Self> {
let sexp = node.to_sexp();
println!("{sexp}");
let identifier_node = node.child(0).unwrap();
let statement_node = node.child(2).unwrap();
let identifier = source[identifier_node.byte_range()].to_string();
let statement = Statement::new(statement_node, source)?;
Ok(Self {
identifier,
statement,
})
}
}
impl Expression {
@ -229,18 +259,19 @@ impl Expression {
Ok(Self::Identifier(identifier.to_string()))
} else if node.kind() == "value" {
Ok(Expression::Value(Value::new(node, source)?))
} else if node.kind() == "operation" {
Ok(Expression::Operation(Box::new(Operation::new(
node, source,
)?)))
} else if node.kind() == "control_flow" {
Ok(Expression::ControlFlow(Box::new(ControlFlow::new(
node, source,
)?)))
} else if node.kind() == "assignment" {
Ok(Expression::Assignment(Box::new(Assignment::new(
node, source,
)?)))
} else {
Err(Error::UnexpectedSourceNode {
expected: "identifier, operation, control_flow or value",
expected: "identifier, operation, control_flow, assignment or value",
actual: node.kind(),
location: node.start_position(),
})
}
}
@ -262,64 +293,12 @@ impl Expression {
}
}
Expression::Value(value) => Ok(value.clone()),
Expression::Operation(operation) => operation.run(context, &mut cursor, source),
Expression::ControlFlow(control_flow) => control_flow.run(context, &mut cursor, source),
Expression::Assignment(_) => todo!(),
}
}
}
#[derive(Debug, Clone, Serialize, Deserialize, Eq, PartialEq, PartialOrd, Ord)]
pub struct Operation {
left: Expression,
operator: String,
right: Expression,
}
impl Operation {
fn new(node: Node, source: &str) -> Result<Self> {
let first_child = node.child(0).unwrap();
let second_child = node.child(1).unwrap();
let third_child = node.child(2).unwrap();
let left = Expression::new(first_child, source)?;
let operator = second_child.child(0).unwrap().kind().to_string();
let right = Expression::new(third_child, source)?;
Ok(Operation {
left,
operator,
right,
})
}
fn run(
&self,
context: &mut VariableMap,
mut cursor: &mut TreeCursor,
source: &str,
) -> Result<Value> {
let left = self.left.run(context, &mut cursor, source)?;
let right = self.right.run(context, &mut cursor, source)?;
match self.operator.as_str() {
"+" => left + right,
"-" => left - right,
"=" => {
if let Expression::Identifier(key) = &self.left {
context.set_value(key, right)?;
}
Ok(Value::Empty)
}
"==" => Ok(Value::Boolean(left == right)),
_ => Err(Error::CustomMessage("Operator not supported.".to_string())),
}
}
}
/// Respresentation of an if-then-else logic gate.
///
/// A ControlFlow instance represents work to be done when the "run" method is
/// called.
#[derive(Debug, Clone, Serialize, Deserialize, Eq, PartialEq, PartialOrd, Ord)]
pub struct ControlFlow {
if_expression: Expression,
@ -375,14 +354,23 @@ mod tests {
#[test]
fn evaluate_empty() {
assert_eq!(eval("()"), vec![Ok(Value::Empty)]);
assert_eq!(eval("x = 9"), vec![Ok(Value::Empty)]);
assert_eq!(eval("y = 'foobar'"), vec![Ok(Value::Empty)]);
assert_eq!(eval(""), vec![]);
assert_eq!(eval("x = 9"), vec![]);
assert_eq!(eval("'foo' + 'bar'"), vec![]);
}
#[test]
fn evaluate_integer() {
assert_eq!(eval("1"), vec![Ok(Value::Integer(1))]);
assert_eq!(eval("123"), vec![Ok(Value::Integer(123))]);
assert_eq!(eval("-666"), vec![Ok(Value::Integer(-666))]);
}
#[test]
fn evaluate_float() {
assert_eq!(eval("0.1"), vec![Ok(Value::Float(0.1))]);
assert_eq!(eval("12.3"), vec![Ok(Value::Float(12.3))]);
assert_eq!(eval("-6.66"), vec![Ok(Value::Float(-6.66))]);
}
#[test]

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@ -9,9 +9,7 @@ use eframe::{
};
use egui_extras::{Column, StripBuilder, TableBuilder};
use crate::{
eval_with_context, Error, Result, Table, Tool, ToolInfo, Value, ValueType, VariableMap,
};
use crate::{Error, Result, Table, Tool, ToolInfo, Value, ValueType, VariableMap};
pub struct BarGraph;
@ -171,7 +169,7 @@ impl eframe::App for PlotGui {
pub struct GuiApp {
text_edit_buffer: String,
whale_context: VariableMap,
_whale_context: VariableMap,
eval_result: Result<Value>,
}
@ -179,7 +177,7 @@ impl GuiApp {
pub fn new(result: Result<Value>) -> Self {
GuiApp {
text_edit_buffer: String::new(),
whale_context: VariableMap::new(),
_whale_context: VariableMap::new(),
eval_result: result,
}
}

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@ -22,7 +22,7 @@ impl Function {
todo!()
}
pub fn run_with_context(&self, context: &mut VariableMap) -> Result<Value> {
pub fn run_with_context(&self, _context: &mut VariableMap) -> Result<Value> {
todo!()
}
}

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@ -187,6 +187,7 @@ impl Value {
_ => Err(Error::UnexpectedSourceNode {
expected: "integer, string, boolean, float, list or empty",
actual: node.kind(),
location: node.start_position(),
}),
}
}