apache/holy_lisp_archive
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base: apache:66e7ab5b219d0961fb4032c7a57c822c2a2a29b092a2f19930427af98f559cc8
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apache:main
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compare: apache:bf3e784b423ac948930b8e611f955af8914220dadeb9ce9b4b4ad34780df6fd8
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apache:main

2 commits
66e7ab5b21 ... bf3e784b42

Author SHA256 Message Date
Apache
bf3e784b42
Functionality 2024-06-20 16:55:37 -05:00
Apache
b67ac42cee
Small update 2024-06-16 14:29:46 -05:00
5 changed files with 182 additions and 98 deletions
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140
src/executor.rs
View file

@ -1,6 +1,6 @@
use std::collections::HashMap; use std::{collections::HashMap, fmt};
use crate::{OpCode, LispValue}; use crate::PreLispValue;
pub struct LispState { pub struct LispState {
table: HashMap<String, LispValue>, table: HashMap<String, LispValue>,
@ -10,6 +10,54 @@ fn add_function<T: Into<String> + Clone>(table: &mut HashMap<String, LispValue>,
table.insert(name.clone().into(), LispValue::RustFunction(name.into(), func)); table.insert(name.clone().into(), LispValue::RustFunction(name.into(), func));
} }
#[derive(Debug, Clone)]
pub enum LispValue {
Nil,
String(String),
Integer(i32),
Float(f32),
List(Vec<LispValue>, bool),
LispFunction(String, Vec<LispValue>),
RustFunction(String, fn(Vec<LispValue>) -> Vec<LispValue>),
}
impl fmt::Display for LispValue {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
LispValue::Nil => write!(f, "nil"),
LispValue::String(str) => write!(f, "{}", str),
LispValue::LispFunction(name, _) => write!(f, "<'{}': Lisp Function>", name),
LispValue::RustFunction(name, _) => write!(f, "<'{}': Rust Function>", name),
LispValue::Integer(num) => write!(f, "{}", num),
LispValue::Float(num) => write!(f, "{}", num),
val => {
write!(f, "{}", format!("{:?}", val))
}
}
}
}
impl From<&str> for LispValue {
fn from(value: &str) -> Self {
LispValue::String(value.to_string())
}
}
impl From<String> for LispValue {
fn from(value: String) -> Self {
LispValue::String(value)
}
}
impl From<i32> for LispValue {
fn from(value: i32) -> Self {
LispValue::Integer(value)
}
}
impl From<f32> for LispValue {
fn from(value: f32) -> Self {
LispValue::Float(value)
}
}
impl LispState { impl LispState {
pub fn new() -> LispState { pub fn new() -> LispState {
let mut table = HashMap::new(); let mut table = HashMap::new();
@ -281,47 +329,73 @@ impl LispState {
} }
} }
fn do_call(&self, opcode: &OpCode) -> Vec<LispValue> { fn handle_prevalues(&self, input: Vec<PreLispValue>) -> Vec<LispValue> {
if let OpCode::Call(func, args) = opcode { let mut out = Vec::new();
let f = self.table.get(func).unwrap();
let mut args: Vec<LispValue> = args.clone(); for v in input {
for i in 0..args.len() { out.push(match v {
let arg = &args[i]; PreLispValue::Nil => LispValue::Nil,
if let LispValue::Eval(OpCode::Exp(opcodes)) = arg { PreLispValue::String(str) => LispValue::String(str),
if opcodes.len() < 1 { PreLispValue::Integer(num) => LispValue::Integer(num),
args[i] = LispValue::Nil; PreLispValue::Float(num) => LispValue::Float(num),
continue; PreLispValue::List(list, quoted) => {
} LispValue::List(Self::handle_prevalues(self, list), quoted)
},
PreLispValue::LispFunction(name, instructions) => {
LispValue::LispFunction(name, Self::handle_prevalues(self, instructions))
},
PreLispValue::Var(name) => {
self.table.get(&name).unwrap_or(&LispValue::Nil).to_owned()
}
})
}
let call_opcode = opcodes.last().unwrap(); out
let mut res = self.do_call(call_opcode); }
args.remove(i);
for j in 0..res.len() { fn eval_list(list: &Vec<LispValue>, quoted: bool) -> (Vec<LispValue>, bool) {
args.insert(i + j, res.remove(0)); if list.len() < 1 {
return (vec![LispValue::List(Vec::new(), quoted)], false);
}
let list = &mut list.clone();
for i in 0..list.len() {
if let LispValue::List(elements, quoted) = &list[i] {
let (elems, astuple) = Self::eval_list(elements, *quoted);
if astuple {
list[i] = elems.get(0).unwrap_or(&LispValue::Nil).to_owned();
for j in 1..elems.len() {
list.insert(i, elems[j].to_owned());
} }
} else {
list[i] = LispValue::List(elems, *quoted);
} }
} }
if let LispValue::RustFunction(_, f) = f { }
return f(args.to_vec());
} else {
todo!();
}
if quoted {
return (list.to_vec(), false);
}
if let LispValue::RustFunction(_name, f) = &list[0] {
(f(list[1..].to_vec()), true)
} else if let LispValue::LispFunction(_name, ins) = &list[0] {
(Self::call_lisp_func(&list[0], list[1..].to_vec()), true)
} else { } else {
panic!("Bad OpCode: expected OpCode::Call") (list.to_vec(), false)
} }
} }
pub fn execute(&self, instructions: Vec<OpCode>) { fn call_lisp_func(f: &LispValue, args: Vec<LispValue>) -> Vec<LispValue> {
for op in instructions { todo!()
match op { }
OpCode::Call(func, args) => {
self.do_call(&OpCode::Call(func, args)); pub fn execute(&self, instructions: Vec<PreLispValue>) {
}, let instructions = Self::handle_prevalues(self, instructions);
OpCode::Exp(ins) => { for val in instructions {
self.execute(ins); if let LispValue::List(elements, quoted) = val {
} Self::eval_list(&elements, quoted);
} }
} }
} }

1
src/main.rs
View file

@ -9,6 +9,7 @@ use executor::*;
fn main() { fn main() {
let source = std::fs::read_to_string("src/test.lisp").unwrap(); let source = std::fs::read_to_string("src/test.lisp").unwrap();
let mut tokenizer = Tokenizer::new(source); let mut tokenizer = Tokenizer::new(source);
let tokens = match tokenizer.tokenize() { let tokens = match tokenizer.tokenize() {
Ok(tokens) => tokens, Ok(tokens) => tokens,

131
src/parser.rs
View file

@ -3,54 +3,53 @@ use std::fmt;
use crate::Token; use crate::Token;
#[derive(Debug, Clone)] #[derive(Debug, Clone)]
pub enum LispValue { pub enum PreLispValue {
Nil, Nil,
String(String), String(String),
Var(String),
Integer(i32), Integer(i32),
Float(f32), Float(f32),
LispFunction(String, Vec<OpCode>), List(Vec<PreLispValue>, bool), // Values, Quoted
RustFunction(String, fn(Vec<LispValue>) -> Vec<LispValue>), LispFunction(String, Vec<PreLispValue>),
Ref(String),
Eval(OpCode)
} }
impl fmt::Display for LispValue { impl fmt::Display for PreLispValue {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self { match self {
LispValue::Nil => write!(f, "nil"), PreLispValue::Nil => write!(f, "nil"),
LispValue::String(str) => write!(f, "{}", str), PreLispValue::String(str) => write!(f, "{}", str),
LispValue::LispFunction(name, _) => write!(f, "<'{}': Lisp Function>", name), PreLispValue::LispFunction(name, _) => write!(f, "<'{}': Lisp Function>", name),
LispValue::RustFunction(name, _) => write!(f, "<'{}': Rust Function>", name), PreLispValue::Integer(num) => write!(f, "{}", num),
LispValue::Integer(num) => write!(f, "{}", num), PreLispValue::Float(num) => write!(f, "{}", num),
LispValue::Float(num) => write!(f, "{}", num),
LispValue::Ref(name) => write!(f, "<'{}': Reference>", name),
_ => todo!() _ => todo!()
} }
} }
} }
impl From<&str> for LispValue { impl From<&str> for PreLispValue {
fn from(value: &str) -> Self { fn from(value: &str) -> Self {
LispValue::String(value.to_string()) PreLispValue::String(value.to_string())
} }
} }
impl From<String> for PreLispValue {
impl From<String> for LispValue {
fn from(value: String) -> Self { fn from(value: String) -> Self {
LispValue::String(value) PreLispValue::String(value)
} }
} }
impl From<i32> for PreLispValue {
impl From<i32> for LispValue {
fn from(value: i32) -> Self { fn from(value: i32) -> Self {
LispValue::Integer(value) PreLispValue::Integer(value)
} }
} }
impl From<f32> for PreLispValue {
#[derive(Debug, Clone)] fn from(value: f32) -> Self {
pub enum OpCode { PreLispValue::Float(value)
Call(String, Vec<LispValue>), }
Exp(Vec<OpCode>) }
impl From<Vec<PreLispValue>> for PreLispValue {
fn from(value: Vec<PreLispValue>) -> Self {
PreLispValue::List(value, false)
}
} }
// TODO: Handle failure // TODO: Handle failure
@ -83,60 +82,64 @@ fn read_exp(open_paren_idx: usize, tokens: &Vec<Token>) -> Option<(Vec<Token>, u
None None
} }
fn parse_exp(tokens: Vec<Token>) -> Vec<OpCode> { fn parse_exp(tokens: Vec<Token>, quoted: bool) -> PreLispValue {
let mut opcodes = Vec::new(); let mut values = Vec::new();
if tokens.len() < 1 { if tokens.len() < 1 {
return opcodes; return PreLispValue::List(values, false);
} }
if let Token::Identifier(name) = &tokens[0] { let mut quote_next_list = false;
let mut args = Vec::new(); let mut unquote_next_list = false;
let mut i = 1; let mut i = 0;
while i < tokens.len() { while i < tokens.len() {
let tkn = &tokens[i]; let tkn = &tokens[i];
match tkn { match tkn {
Token::OpenParen => { Token::Quote => {
let (tkns, close_paren_idx) = read_exp(i, &tokens).unwrap(); quote_next_list = true;
args.push(LispValue::Eval(OpCode::Exp(parse_exp(tkns)))); },
i = close_paren_idx; Token::Unquote => {
}, unquote_next_list = true;
Token::Identifier(name) => {
args.push(LispValue::Ref(name.to_owned()));
},
Token::Integer(num) => {
args.push(LispValue::Integer(*num));
},
Token::Float(num) => {
args.push(LispValue::Float(*num));
},
Token::String(str) => {
args.push(LispValue::String(str.to_owned()));
},
Token::CloseParen => {
panic!("Unexpected closing parenthesis");
},
} }
Token::OpenParen => {
i += 1; let (tkns, close_paren_idx) = read_exp(i, &tokens).unwrap();
values.push(parse_exp(tkns, if unquote_next_list {false} else {quote_next_list || quoted}));
i = close_paren_idx;
quote_next_list = false;
unquote_next_list = false;
},
Token::Identifier(name) => {
values.push(PreLispValue::Var(name.to_owned()));
},
Token::Integer(num) => {
values.push(PreLispValue::Integer(*num));
},
Token::Float(num) => {
values.push(PreLispValue::Float(*num));
},
Token::String(str) => {
values.push(PreLispValue::String(str.to_owned()));
},
Token::CloseParen => {
panic!("Unexpected closing parenthesis");
},
} }
i += 1;
opcodes.push(OpCode::Call(name.to_owned(), args))
} }
opcodes PreLispValue::List(values, quoted)
} }
pub fn parse(tokens: Vec<Token>) -> Vec<OpCode> { pub fn parse(tokens: Vec<Token>) -> Vec<PreLispValue> {
let mut opcodes = Vec::new(); let mut values = Vec::new();
let mut i = 0; let mut i = 0;
while i < tokens.len() { while i < tokens.len() {
match &tokens[i] { match &tokens[i] {
Token::OpenParen => { Token::OpenParen => {
let (tkns, close_paren_idx) = read_exp(i, &tokens).unwrap(); let (tkns, close_paren_idx) = read_exp(i, &tokens).unwrap();
opcodes.push(OpCode::Exp(parse_exp(tkns))); values.push(parse_exp(tkns, false));
i = close_paren_idx; i = close_paren_idx;
} }
tkn => { tkn => {
@ -147,5 +150,5 @@ pub fn parse(tokens: Vec<Token>) -> Vec<OpCode> {
i += 1; i += 1;
} }
opcodes values
} }

6
src/tokenizer.rs
View file

@ -4,6 +4,8 @@ use std::fmt;
pub enum Token { pub enum Token {
OpenParen, OpenParen,
CloseParen, CloseParen,
Quote,
Unquote,
Identifier(String), Identifier(String),
String(String), String(String),
Integer(i32), Integer(i32),
@ -113,6 +115,8 @@ impl Tokenizer {
tokens.push(Token::Integer(self.storage.iter().collect::<String>().parse().unwrap())); tokens.push(Token::Integer(self.storage.iter().collect::<String>().parse().unwrap()));
} }
self.is_float = false;
self.storage.clear(); self.storage.clear();
} else { } else {
if char == '.' { if char == '.' {
@ -164,6 +168,8 @@ impl Tokenizer {
self.reading_string = true; self.reading_string = true;
self.storage.clear(); self.storage.clear();
}, },
'\'' => tokens.push(Token::Quote),
',' => tokens.push(Token::Unquote),
c => { c => {
if c.is_alphabetic() { if c.is_alphabetic() {
self.reading_identifier = true; self.reading_identifier = true;