482 lines
17 KiB
Rust
482 lines
17 KiB
Rust
extern crate take_mut;
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use std::collections::HashMap;
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use std::collections::VecDeque;
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use parser::{AST, Statement, Expression, Function, Callable, BinOp};
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use std::rc::Rc;
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use std::io::{Write, Stdout, BufWriter};
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use std::convert::From;
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use parser::Expression::*;
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use parser::Statement::*;
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type Reduction<T> = (T, Option<SideEffect>);
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#[derive(Debug, Clone)]
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enum ReducedValue {
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StringLiteral(Rc<String>),
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ListLiteral(VecDeque<Expression>),
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StructLiteral(VecDeque<(Rc<String>, Expression)>),
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Number(f64),
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Lambda(Function),
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}
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impl From<ReducedValue> for Expression {
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fn from(rv: ReducedValue) -> Expression {
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match rv {
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ReducedValue::Number(n) => Expression::Number(n),
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ReducedValue::StringLiteral(n) => Expression::StringLiteral(n),
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ReducedValue::Lambda(f) => Expression::Lambda(f),
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ReducedValue::ListLiteral(items) => Expression::ListLiteral(items),
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ReducedValue::StructLiteral(items) => Expression::StructLiteral(items),
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}
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}
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}
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impl From<Expression> for ReducedValue {
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fn from(rv: Expression) -> ReducedValue {
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match rv {
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Expression::Number(n) => ReducedValue::Number(n),
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Expression::StringLiteral(n) => ReducedValue::StringLiteral(n),
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Expression::Lambda(f) => ReducedValue::Lambda(f),
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Expression::ListLiteral(items) => ReducedValue::ListLiteral(items),
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Expression::StructLiteral(items) => ReducedValue::StructLiteral(items),
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_ => panic!("trying to store a non-fully-reduced variable"),
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}
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}
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}
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fn get_indexer(f: f64) -> Option<usize> {
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if f.fract() == 0.0 {
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if f.trunc() >= 0.0 {
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return Some(f.trunc() as usize);
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}
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}
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None
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}
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#[derive(Debug)]
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enum SideEffect {
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Print(String),
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AddBinding(Rc<String>, ReducedValue),
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}
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pub struct Evaluator<'a> {
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parent: Option<&'a Evaluator<'a>>,
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variables: HashMap<String, ReducedValue>,
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stdout: BufWriter<Stdout>,
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pub trace_evaluation: bool,
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}
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impl<'a> Evaluator<'a> {
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pub fn new(parent: Option<&'a Evaluator>) -> Evaluator<'a> {
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Evaluator {
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variables: HashMap::new(),
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parent: parent,
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stdout: BufWriter::new(::std::io::stdout()),
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trace_evaluation: parent.map_or(false, |e| e.trace_evaluation),
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}
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}
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pub fn run(&mut self, ast: AST) -> Vec<String> {
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ast.into_iter()
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.map(|astnode| format!("{}", self.reduction_loop(astnode)))
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.collect()
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}
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fn add_binding(&mut self, var: String, value: ReducedValue) {
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self.variables.insert(var, value);
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}
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fn lookup_binding(&self, var: &str) -> Option<ReducedValue> {
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match self.variables.get(var) {
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Some(expr) => Some(expr.clone()),
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None => match self.parent {
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Some(env) => env.lookup_binding(var),
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None => None
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}
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}
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}
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}
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trait Evaluable {
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fn is_reducible(&self) -> bool;
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}
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impl Evaluable for Statement {
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fn is_reducible(&self) -> bool {
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match self {
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&ExprNode(ref expr) => expr.is_reducible(),
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&FuncDefNode(_) => true,
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}
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}
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}
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impl Evaluable for Expression {
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fn is_reducible(&self) -> bool {
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match *self {
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Null => false,
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StringLiteral(_) => false,
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Lambda(_) => false,
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Number(_) => false,
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ListLiteral(ref items) => {
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items.iter().any(|x| x.is_reducible())
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}
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StructLiteral(ref items) => {
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items.iter().any(|pair| pair.1.is_reducible())
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}
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_ => true,
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}
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}
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}
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impl Expression {
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fn is_truthy(&self) -> bool {
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match *self {
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Null => false,
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StringLiteral(ref s) if **s == "" => false,
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Number(n) if n == 0.0 => false,
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_ => true,
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}
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}
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}
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fn is_assignment(op: &BinOp) -> bool {
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use self::BinOp::*;
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match *op {
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Assign | AddAssign | SubAssign |
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MulAssign | DivAssign => true,
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_ => false,
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}
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}
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impl<'a> Evaluator<'a> {
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fn reduction_loop(&mut self, mut node: Statement) -> Statement {
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loop {
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node = self.step(node);
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if !node.is_reducible() {
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break;
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}
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}
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node
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}
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fn step(&mut self, node: Statement) -> Statement {
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let mut trace = String::new();
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if self.trace_evaluation {
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trace.push_str(&format!("Step: {:?}", node));
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}
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let (new_node, side_effect) = self.reduce_astnode(node);
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if self.trace_evaluation {
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trace.push_str(&format!(" ➜ {:?}", new_node));
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}
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if let Some(s) = side_effect {
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if self.trace_evaluation {
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trace.push_str(&format!(" | side-effect: {:?}", s));
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}
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self.perform_side_effect(s);
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}
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if self.trace_evaluation {
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println!("{}", trace);
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}
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new_node
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}
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fn perform_side_effect(&mut self, side_effect: SideEffect) {
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use self::SideEffect::*;
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match side_effect {
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Print(s) => {
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write!(self.stdout, "{}\n", s).unwrap();
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match self.stdout.flush() {
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Ok(_) => (),
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Err(_) => println!("Could not flush stdout"),
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};
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}
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AddBinding(var, value) => {
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self.add_binding((*var).clone(), value);
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},
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}
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}
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fn reduce_astnode(&mut self, node: Statement) -> Reduction<Statement> {
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match node {
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ExprNode(expr) => {
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if expr.is_reducible() {
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let (new_expr, side_effect) = self.reduce_expr(expr);
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(ExprNode(new_expr), side_effect)
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} else {
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(ExprNode(expr), None)
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}
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}
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FuncDefNode(func) => {
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let name = func.prototype.name.clone();
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let reduced_value = ReducedValue::Lambda(func.clone());
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let binding = Some(SideEffect::AddBinding(name, reduced_value));
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(ExprNode(Expression::Lambda(func)), binding)
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}
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}
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}
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//TODO I probably want another Expression variant that holds a ReducedValue
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fn reduce_expr(&mut self, expression: Expression) -> Reduction<Expression> {
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match expression {
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Null => (Null, None),
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e @ StringLiteral(_) => (e, None),
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e @ Number(_) => (e, None),
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e @ Lambda(_) => (e, None),
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Variable(ref var) => {
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match self.lookup_binding(var).map(|x| x.into()) {
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None => (Null, None),
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Some(expr) => (expr, None),
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}
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}
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BinExp(op, mut left, mut right) => {
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if right.is_reducible() {
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let mut side_effect = None;
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take_mut::take(right.as_mut(), |expr| { let (a, b) = self.reduce_expr(expr); side_effect = b; a});
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return (BinExp(op, left, right), side_effect);
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}
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if let BinOp::Assign = op {
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return match *left {
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Variable(var) => {
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let reduced_value: ReducedValue = ReducedValue::from(*right);
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let binding = SideEffect::AddBinding(var, reduced_value);
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(Null, Some(binding))
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},
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_ => (Null, None)
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};
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}
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if is_assignment(&op) {
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use self::BinOp::*;
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let new_op = match op {
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AddAssign => Add,
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SubAssign => Sub,
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MulAssign => Mul,
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DivAssign => Div,
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_ => unreachable!(),
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};
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let reduction =
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BinExp(BinOp::Assign,
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Box::new(*left.clone()),
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Box::new(BinExp(new_op, left, right))
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);
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return (reduction, None);
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}
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if left.is_reducible() {
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let mut side_effect = None;
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take_mut::take(left.as_mut(), |expr| { let (a, b) = self.reduce_expr(expr); side_effect = b; a});
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(BinExp(op, left, right), side_effect)
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} else {
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(self.reduce_binop(op, *left, *right), None) //can assume both arguments are maximally reduced
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}
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}
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Call(callable, mut args) => {
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let mut f = true;
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for arg in args.iter_mut() {
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if arg.is_reducible() {
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take_mut::take(arg, |arg| self.reduce_expr(arg).0);
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f = false;
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break;
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}
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}
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if f {
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self.reduce_call(callable, args)
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} else {
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(Call(callable, args), None)
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}
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}
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While(test, body) => {
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let mut block = VecDeque::from(body.clone());
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block.push_back(While(test.clone(), body.clone()));
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let reduction = Conditional(test, Box::new(Block(block)), None);
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(reduction, None)
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}
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Conditional(box test, then_block, else_block) => {
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if test.is_reducible() {
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let (new_test, new_effect) = self.reduce_expr(test);
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(Conditional(Box::new(new_test), then_block, else_block), new_effect)
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} else {
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if test.is_truthy() {
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(*then_block, None)
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} else {
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match else_block {
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Some(box expr) => (expr, None),
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None => (Null, None),
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}
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}
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}
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}
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Block(mut exprs) => {
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let first = exprs.pop_front();
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match first {
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None => (Null, None),
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Some(expr) => {
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if exprs.len() == 0 {
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(expr, None)
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} else {
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if expr.is_reducible() {
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let (new, side_effect) = self.reduce_expr(expr);
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exprs.push_front(new);
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(Block(exprs), side_effect)
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} else {
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(Block(exprs), None)
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}
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}
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}
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}
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}
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Index(mut expr, mut index_expr) => {
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if index_expr.is_reducible() {
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let mut side_effect = None;
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take_mut::take(index_expr.as_mut(), |expr| { let (a, b) = self.reduce_expr(expr); side_effect = b; a});
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return (Index(expr, index_expr), side_effect)
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}
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if expr.is_reducible() {
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let mut side_effect = None;
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take_mut::take(expr.as_mut(), |expr| { let (a, b) = self.reduce_expr(expr); side_effect = b; a});
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return (Index(expr, index_expr), side_effect);
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}
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match (*expr, *index_expr) {
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(ListLiteral(list_items), Number(n)) => {
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let indexed_expr = get_indexer(n).and_then(|i| list_items.get(i));
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if let Some(e) = indexed_expr {
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(e.clone(), None)
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} else {
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(Null, None)
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}
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}
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(StructLiteral(items), StringLiteral(s)) => {
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for item in items {
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if s == item.0 {
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return (item.1.clone(), None); //TODO this is hella inefficient
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}
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}
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(Null, None)
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},
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_ => (Null, None)
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}
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}
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ListLiteral(mut exprs) => {
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let mut side_effect = None;
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for expr in exprs.iter_mut() {
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if expr.is_reducible() {
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take_mut::take(expr, |expr| {
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let (a, b) = self.reduce_expr(expr);
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side_effect = b;
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a
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});
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break;
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}
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}
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(ListLiteral(exprs), side_effect)
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},
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StructLiteral(mut items) => {
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let mut side_effect = None;
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for pair in items.iter_mut() {
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if pair.1.is_reducible() {
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take_mut::take(pair, |pair| {
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let (name, expr) = pair;
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let (a, b) = self.reduce_expr(expr);
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side_effect = b;
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(name, a)
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});
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break;
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}
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}
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(StructLiteral(items), side_effect)
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}
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}
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}
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fn reduce_binop(&mut self, op: BinOp, left: Expression, right: Expression) -> Expression {
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use self::BinOp::*;
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let truthy = Number(1.0);
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let falsy = Null;
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match (op, left, right) {
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(Add, Number(l), Number(r)) => Number(l + r),
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(Add, StringLiteral(s1), StringLiteral(s2)) => StringLiteral(Rc::new(format!("{}{}", *s1, *s2))),
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(Add, StringLiteral(s1), Number(r)) => StringLiteral(Rc::new(format!("{}{}", *s1, r))),
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(Add, Number(l), StringLiteral(s1)) => StringLiteral(Rc::new(format!("{}{}", l, *s1))),
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(Sub, Number(l), Number(r)) => Number(l - r),
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(Mul, Number(l), Number(r)) => Number(l * r),
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(Div, Number(l), Number(r)) if r != 0.0 => Number(l / r),
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(Mod, Number(l), Number(r)) => Number(l % r),
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(Less, Number(l), Number(r)) => if l < r { truthy } else { falsy },
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(LessEq, Number(l), Number(r)) => if l <= r { truthy } else { falsy },
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(Greater, Number(l), Number(r)) => if l > r { truthy } else { falsy },
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(GreaterEq, Number(l), Number(r)) => if l >= r { truthy } else { falsy },
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(Equal, Number(l), Number(r)) => if l == r { truthy } else { falsy },
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(Equal, Null, Null) => truthy,
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(Equal, StringLiteral(s1), StringLiteral(s2)) => if s1 == s2 { truthy } else { falsy },
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(Equal, _, _) => falsy,
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_ => falsy,
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}
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}
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fn reduce_call(&mut self, callable: Callable, arguments: Vec<Expression>) -> Reduction<Expression> {
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if let Some(res) = handle_builtin(&callable, &arguments) {
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return res;
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}
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let function = match callable {
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Callable::Lambda(func) => func.clone(),
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Callable::NamedFunction(name) => {
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match self.lookup_binding(&*name) {
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Some(ReducedValue::Lambda(func)) => func,
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_ => return (Null, None),
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}
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}
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};
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if function.prototype.parameters.len() != arguments.len() {
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return (Null, None);
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}
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let mut evaluator = Evaluator::new(Some(self));
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for (binding, expr) in function.prototype.parameters.iter().zip(arguments.iter()) {
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evaluator.add_binding((**binding).clone(), expr.clone().into());
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}
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let nodes = function.body.iter().map(|node| node.clone());
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let mut retval = ExprNode(Null);
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for n in nodes {
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retval = evaluator.reduction_loop(n);
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}
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match retval {
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ExprNode(expr) => (expr, None),
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FuncDefNode(_) => panic!("This should never happen! A maximally-reduced node\
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should never be a function definition!")
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}
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}
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}
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fn handle_builtin(callable: &Callable, arguments: &Vec<Expression>) -> Option<Reduction<Expression>> {
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let name: &str = match *callable {
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Callable::NamedFunction(ref name) => *&name,
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_ => return None,
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};
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match name {
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"print" => {
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let mut s = String::new();
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for arg in arguments {
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s.push_str(&format!("{} ", arg));
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}
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return Some((Null, Some(SideEffect::Print(s))));
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},
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_ => None
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}
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}
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