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Author SHA1 Message Date
df68d6f2e6 cl-interpret/tests: Fix broken test 2024-09-19 14:29:21 -05:00
ae11d87d68 Merge pull request 'Basic floating point support (WIP)' (#18) from floats into main
Reviewed-on: #18
2024-09-19 19:27:51 +00:00
96be5aba6c repline: Add a code sample demonstrating the use of prebaked::read_and 2024-09-19 14:08:50 -05:00
b9f4994930 sample-code: update sqrt.cl to use new float syntax 2024-09-19 14:02:58 -05:00
f4fe07a08b cl-lexer: Hack around ambiguity between 1.0 and 1..0
This requires more than one token lookahead, but is already part of a hack itself, so... /shrug
2024-09-19 14:02:02 -05:00
94be5d787f cl-ast: always pretty-print decimal for floats 2024-09-19 14:00:22 -05:00
5deb585054 cl-ast: Add float support
- Smuggle floats as integers to maintain `eq`
- This is bad, but not terrible for spec-compliant floats. Might have issues with NaN.

cl_parser: Smuggle floats

cl_interpret: unpack smuggled floats in float literal node
2024-09-19 13:20:19 -05:00
56e71d6782 cl-lexer: Add a hacky workaround for float support.
It's disgusting, but better than nothing!
2024-09-19 13:16:27 -05:00
c62df3d8b3 sample-code: Add square root demo 2024-09-18 01:53:04 -05:00
fad28beb05 interpreter: Add float machinery
- operators
- type casting
2024-09-18 01:02:09 -05:00
0f8b0824ac cl-parser: Fix precedence of comparison operators 2024-09-18 00:57:44 -05:00
99a00875a8 cl-intern: Derive Default for StringInterner and TypedInterner 2024-08-24 18:18:22 -05:00
14 changed files with 125 additions and 10 deletions

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@ -36,6 +36,7 @@ pub enum Literal {
Bool(bool),
Char(char),
Int(u128),
Float(u64),
String(String),
}

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@ -50,6 +50,7 @@ mod display {
Literal::Bool(v) => v.fmt(f),
Literal::Char(v) => write!(f, "'{}'", v.escape_debug()),
Literal::Int(v) => v.fmt(f),
Literal::Float(v) => write!(f, "{:?}", f64::from_bits(*v)),
Literal::String(v) => write!(f, "\"{}\"", v.escape_debug()),
}
}

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@ -37,6 +37,9 @@ pub trait Fold {
fn fold_int(&mut self, i: u128) -> u128 {
i
}
fn fold_smuggled_float(&mut self, f: u64) -> u64 {
f
}
fn fold_string(&mut self, s: String) -> String {
s
}
@ -384,6 +387,7 @@ pub fn or_fold_literal<F: Fold + ?Sized>(folder: &mut F, lit: Literal) -> Litera
Literal::Bool(b) => Literal::Bool(folder.fold_bool(b)),
Literal::Char(c) => Literal::Char(folder.fold_char(c)),
Literal::Int(i) => Literal::Int(folder.fold_int(i)),
Literal::Float(f) => Literal::Float(folder.fold_smuggled_float(f)),
Literal::String(s) => Literal::String(folder.fold_string(s)),
}
}

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@ -23,6 +23,7 @@ pub trait Visit<'a>: Sized {
fn visit_bool(&mut self, _b: &'a bool) {}
fn visit_char(&mut self, _c: &'a char) {}
fn visit_int(&mut self, _i: &'a u128) {}
fn visit_smuggled_float(&mut self, _f: &'a u64) {}
fn visit_string(&mut self, _s: &'a str) {}
fn visit_file(&mut self, f: &'a File) {
let File { items } = f;
@ -339,6 +340,7 @@ pub fn or_visit_literal<'a, V: Visit<'a>>(visitor: &mut V, l: &'a Literal) {
Literal::Bool(b) => visitor.visit_bool(b),
Literal::Char(c) => visitor.visit_char(c),
Literal::Int(i) => visitor.visit_int(i),
Literal::Float(f) => visitor.visit_smuggled_float(f),
Literal::String(s) => visitor.visit_string(s),
}
}

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@ -223,6 +223,7 @@ builtins! {
Ok(match tail {
ConValue::Empty => ConValue::Empty,
ConValue::Int(v) => ConValue::Int(v.wrapping_neg()),
ConValue::Float(v) => ConValue::Float(-v),
_ => Err(Error::TypeError)?,
})
}

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@ -20,6 +20,8 @@ pub enum ConValue {
Empty,
/// An integer
Int(Integer),
/// A floating point number
Float(f64),
/// A boolean
Bool(bool),
/// A unicode character
@ -124,6 +126,7 @@ macro cmp ($($fn:ident: $empty:literal, $op:tt);*$(;)?) {$(
match (self, other) {
(Self::Empty, Self::Empty) => Ok(Self::Bool($empty)),
(Self::Int(a), Self::Int(b)) => Ok(Self::Bool(a $op b)),
(Self::Float(a), Self::Float(b)) => Ok(Self::Bool(a $op b)),
(Self::Bool(a), Self::Bool(b)) => Ok(Self::Bool(a $op b)),
(Self::Char(a), Self::Char(b)) => Ok(Self::Bool(a $op b)),
(Self::String(a), Self::String(b)) => Ok(Self::Bool(&**a $op &**b)),
@ -150,6 +153,7 @@ impl From<&Sym> for ConValue {
}
from! {
Integer => ConValue::Int,
f64 => ConValue::Float,
bool => ConValue::Bool,
char => ConValue::Char,
Sym => ConValue::String,
@ -189,7 +193,8 @@ ops! {
Add: add = [
(ConValue::Empty, ConValue::Empty) => ConValue::Empty,
(ConValue::Int(a), ConValue::Int(b)) => ConValue::Int(a.wrapping_add(b)),
(ConValue::String(a), ConValue::String(b)) => (a.to_string() + &b.to_string()).into(),
(ConValue::Float(a), ConValue::Float(b)) => ConValue::Float(a + b),
(ConValue::String(a), ConValue::String(b)) => (a.to_string() + &*b).into(),
(ConValue::String(s), ConValue::Char(c)) => { let mut s = s.to_string(); s.push(c); s.into() }
(ConValue::Char(a), ConValue::Char(b)) => {
ConValue::String([a, b].into_iter().collect::<String>().into())
@ -219,18 +224,21 @@ ops! {
(ConValue::Int(a), ConValue::Int(b)) => ConValue::Int(a.checked_div(b).unwrap_or_else(|| {
eprintln!("Warning: Divide by zero in {a} / {b}"); a
})),
(ConValue::Float(a), ConValue::Float(b)) => ConValue::Float(a / b),
_ => Err(Error::TypeError)?
]
Mul: mul = [
(ConValue::Empty, ConValue::Empty) => ConValue::Empty,
(ConValue::Int(a), ConValue::Int(b)) => ConValue::Int(a.wrapping_mul(b)),
(ConValue::Float(a), ConValue::Float(b)) => ConValue::Float(a * b),
_ => Err(Error::TypeError)?
]
Rem: rem = [
(ConValue::Empty, ConValue::Empty) => ConValue::Empty,
(ConValue::Int(a), ConValue::Int(b)) => ConValue::Int(a.checked_rem(b).unwrap_or_else(|| {
eprintln!("Warning: Divide by zero in {a} % {b}"); a
println!("Warning: Divide by zero in {a} % {b}"); a
})),
(ConValue::Float(a), ConValue::Float(b)) => ConValue::Float(a % b),
_ => Err(Error::TypeError)?
]
Shl: shl = [
@ -246,6 +254,7 @@ ops! {
Sub: sub = [
(ConValue::Empty, ConValue::Empty) => ConValue::Empty,
(ConValue::Int(a), ConValue::Int(b)) => ConValue::Int(a.wrapping_sub(b)),
(ConValue::Float(a), ConValue::Float(b)) => ConValue::Float(a - b),
_ => Err(Error::TypeError)?
]
}
@ -254,6 +263,7 @@ impl std::fmt::Display for ConValue {
match self {
ConValue::Empty => "Empty".fmt(f),
ConValue::Int(v) => v.fmt(f),
ConValue::Float(v) => v.fmt(f),
ConValue::Bool(v) => v.fmt(f),
ConValue::Char(v) => v.fmt(f),
ConValue::String(v) => v.fmt(f),

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@ -358,6 +358,9 @@ fn cast(value: ConValue, ty: Sym) -> IResult<ConValue> {
ConValue::Bool(b) => b as _,
ConValue::Char(c) => c as _,
ConValue::Ref(v) => return cast((*v).clone(), ty),
// TODO: This, better
ConValue::Float(_) if ty.starts_with('f') => return Ok(value),
ConValue::Float(f) => f as _,
_ => Err(Error::TypeError)?,
};
Ok(match &*ty {
@ -369,6 +372,8 @@ fn cast(value: ConValue, ty: Sym) -> IResult<ConValue> {
"i32" => ConValue::Int(value as i32 as _),
"u64" => ConValue::Int(value),
"i64" => ConValue::Int(value),
"f32" => ConValue::Float(value as f32 as _),
"f64" => ConValue::Float(value as f64 as _),
"char" => ConValue::Char(char::from_u32(value as _).unwrap_or('\u{fffd}')),
"bool" => ConValue::Bool(value < 0),
_ => Err(Error::NotDefined(ty))?,
@ -448,7 +453,7 @@ impl Interpret for Literal {
Literal::String(value) => ConValue::from(value.as_str()),
Literal::Char(value) => ConValue::Char(*value),
Literal::Bool(value) => ConValue::Bool(*value),
// Literal::Float(value) => todo!("Float values in interpreter: {value:?}"),
Literal::Float(value) => ConValue::Float(f64::from_bits(*value)),
Literal::Int(value) => ConValue::Int(*value as _),
})
}

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@ -1,5 +1,5 @@
#![allow(unused_imports)]
use crate::{env::Environment, convalue::ConValue, Interpret};
use crate::{convalue::ConValue, env::Environment, Interpret};
use cl_ast::*;
use cl_lexer::Lexer;
use cl_parser::Parser;
@ -188,7 +188,7 @@ mod fn_declarations {
assert_eval!(env, fn empty_fn() {});
// TODO: true equality for functions
assert_eq!(
"fn empty_fn () {\n \n}",
"fn empty_fn () {}",
format!(
"{}",
env.get("empty_fn".into())

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@ -378,16 +378,32 @@ impl<'t> Lexer<'t> {
Ok('d') => self.consume()?.digits::<10>(),
Ok('o') => self.consume()?.digits::<8>(),
Ok('b') => self.consume()?.digits::<2>(),
Ok('0'..='9') => self.digits::<10>(),
Ok('0'..='9' | '.') => self.digits::<10>(),
_ => self.produce(Kind::Literal, 0),
}
}
fn digits<const B: u32>(&mut self) -> LResult<Token> {
let mut value = self.digit::<B>()? as u128;
let mut value = 0;
while let Ok(true) = self.peek().as_ref().map(char::is_ascii_alphanumeric) {
value = value * B as u128 + self.digit::<B>()? as u128;
}
self.produce(Kind::Literal, value)
// TODO: find a better way to handle floats in the tokenizer
match self.peek() {
Ok('.') => {
// FIXME: hack: 0.. is not [0.0, '.']
if let Ok('.') = self.clone().consume()?.next() {
return self.produce(Kind::Literal, value);
}
let mut float = format!("{value}.");
self.consume()?;
while let Ok(true) = self.peek().as_ref().map(char::is_ascii_digit) {
float.push(self.iter.next().unwrap_or_default());
}
let float = f64::from_str(&float).expect("must be parsable as float");
self.produce(Kind::Literal, float)
}
_ => self.produce(Kind::Literal, value),
}
}
fn digit<const B: u32>(&mut self) -> LResult<u32> {
let digit = self.peek()?;

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@ -245,7 +245,7 @@ impl Parse<'_> for Literal {
TokenData::String(v) => Literal::String(v),
TokenData::Character(v) => Literal::Char(v),
TokenData::Integer(v) => Literal::Int(v),
TokenData::Float(v) => todo!("Literal::Float({v})"),
TokenData::Float(v) => Literal::Float(v.to_bits()),
_ => panic!("Expected token data for {ty:?}"),
})
}

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@ -247,9 +247,9 @@ fn structor_body(p: &mut Parser, to: Path) -> PResult<Structor> {
#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)]
pub enum Precedence {
Assign,
Logic,
Compare,
Range,
Logic,
Bitwise,
Shift,
Factor,

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@ -119,6 +119,7 @@ pub mod string_interner {
};
/// A string interner hands out [Interned] copies of each unique string given to it.
#[derive(Default)]
pub struct StringInterner<'a> {
arena: DroplessArena<'a>,
keys: RwLock<HashSet<&'a str>>,
@ -258,6 +259,7 @@ pub mod typed_interner {
/// A [TypedInterner] hands out [Interned] references for arbitrary types.
///
/// See the [module-level documentation](self) for more information.
#[derive(Default)]
pub struct TypedInterner<'a, T: Eq + Hash> {
arena: TypedArena<'a, T>,
keys: RwLock<HashSet<&'a T>>,

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@ -0,0 +1,17 @@
//! Demonstrates the use of [read_and()]:
//!
//! The provided closure:
//! 1. Takes a line of input (a [String])
//! 2. Performs some calculation (using [FromStr])
//! 3. Returns a [Result] containing a [Response] or an [Err]
use repline::{prebaked::read_and, Response};
use std::{error::Error, str::FromStr};
fn main() -> Result<(), Box<dyn Error>> {
read_and("\x1b[33m", " >", " ?>", |line| {
println!("-> {:?}", f64::from_str(line.trim())?);
Ok(Response::Accept)
})?;
Ok(())
}

56
sample-code/sqrt.cl Executable file
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@ -0,0 +1,56 @@
#!/usr/bin/env conlang-run
//! Square root approximation, and example applications
/// A really small nonzero number
const EPSILON: f64 = 8.8541878188 / 1000000000000.0;
/// Calcuates the absolute value of a number
fn f64_abs(n: f64) -> f64 {
let n = n as f64
if n < (0.0) { -n } else { n }
}
/// Square root approximation using Newton's method
fn sqrt(n: f64) -> f64 {
let n = n as f64
if n < 0.0 {
return 0.0 / 0.0 // TODO: NaN constant
}
if n == 0.0 {
return 0.0
}
let z = n
loop {
let adj = (z * z - n) / (2.0 * z)
z -= adj
if adj.f64_abs() < EPSILON {
break z;
}
}
}
/// Pythagorean theorem: a² + b² = c²
fn pythag(a: f64, b: f64) -> f64 {
sqrt(a * a + b * b)
}
/// Quadratic formula: (-b ± (b² - 4ac)) / 2a
fn quadratic(a: f64, b: f64, c: f64) -> (f64, f64) {
let a = a as f64; let b = b as f64; let c = c as f64;
(
(-b + sqrt(b * b - 4.0 * a * c)) / 2.0 * a,
(-b - sqrt(b * b - 4.0 * a * c)) / 2.0 * a,
)
}
fn main() {
for i in 0..10 {
println("sqrt(",i,") ≅ ",sqrt(i as f64))
}
println("\nPythagorean Theorem")
println("Hypotenuse of ⊿(5, 12): ", pythag(5.0, 12.0))
println("\nQuadratic formula")
println("Roots of 10x² + 4x - 1: ", quadratic(10.0, 44.0, -1.0))
}