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build.rs
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build.rs
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use std::ffi::OsStr;
use std::io::Write as _;
use std::path::MAIN_SEPARATOR;
use std::{
fs::{self, File},
path::Path,
};
// take an input str and parse it with syn::ExprCall and return the args as strings
#[must_use]
pub fn parse_args(input: &str) -> Vec<String> {
use quote::ToTokens;
let pseudo_fn = format!("X{input}");
let expr = syn::parse_str::<syn::ExprCall>(&pseudo_fn).unwrap();
expr.args.into_iter().map(|e| e.to_token_stream().to_string()).collect()
}
// get the substring between two string
fn get_substring_between<'a>(contents: &'a str, start: &str, end: &str) -> &'a str {
let start_idx = contents.find(start).unwrap() + start.len();
let end_idx = contents[start_idx..].find(end).unwrap() + start_idx;
&contents[start_idx..end_idx]
}
// get substring between string and predicate function
fn get_substring_between_predicate<'a, F>(contents: &'a str, start: &str, predicate: F) -> &'a str
where
F: Fn(char) -> bool,
{
let start_idx = contents.find(start).unwrap() + start.len();
let end_idx = contents[start_idx..].find(predicate).unwrap() + start_idx;
&contents[start_idx..end_idx]
}
fn map_varname(ident: &str) -> String {
if let Some(stripped) = ident.strip_prefix("KW_") {
convert(':', stripped)
} else {
convert("", ident)
}
}
fn convert(lisp_name: impl Into<String>, rust_name: &str) -> String {
let mut lisp_name = lisp_name.into();
lisp_name.extend(rust_name.chars().map(|c| match c {
'_' => '-',
c => c.to_ascii_lowercase(),
}));
lisp_name
}
#[derive(PartialEq)]
enum DefvarType {
Bool,
Other,
}
#[expect(clippy::too_many_lines)]
fn main() {
let mut all_defun = Vec::new();
let mut all_defvar = Vec::new();
let mut all_defsym = Vec::new();
// rerun for all top level files
for entry in fs::read_dir("src").unwrap() {
let path = entry.unwrap().path();
if path.extension().and_then(OsStr::to_str) == Some("rs") {
println!("cargo:rerun-if-changed={}", path.display());
}
}
for entry in fs::read_dir("src").unwrap() {
let entry = entry.unwrap();
let path = entry.path();
if path.is_file() {
let contents = fs::read_to_string(&path).unwrap();
for (start, end) in contents.match_indices("\n#[defun") {
let non_symbol = |c: char| !(c.is_alphanumeric() || c == '_');
let name = get_substring_between_predicate(&contents[start..], "fn ", non_symbol);
// check if the substring immdiately after end is name
let rest = &contents[(start + end.len())..];
let lisp_name = if rest.starts_with("(name") {
get_substring_between(rest, "name = \"", "\"").to_string()
} else {
name.replace('_', "-")
};
// convert the path name to a hierarchy name with slashes replaced with colons
let struct_name = {
let basename = path.strip_prefix("src/").unwrap().file_stem().unwrap();
let import_path = basename.to_str().unwrap().replace(MAIN_SEPARATOR, ":");
format!("crate::{import_path}::__subr_{name}")
};
all_defun.push((struct_name, name.to_string(), lisp_name));
}
// process all strings starting with defvar
for (start, _) in contents.match_indices("\ndefvar") {
let defvar_type = if contents[start..].starts_with("\ndefvar_bool!") {
DefvarType::Bool
} else if contents[start..].starts_with("\ndefvar!") {
DefvarType::Other
} else {
continue;
};
let body = get_substring_between(&contents[start..], "!", ";");
let args = parse_args(body);
let len = args.len();
let mut fields = args.into_iter();
let ident = fields.next().unwrap();
let (ident, name, value) = match len {
1 => {
let name = map_varname(&ident);
(ident, name, None)
}
2 => {
let name = map_varname(&ident);
let value = fields.next().unwrap();
(ident, name, Some(value))
}
3 => {
let name = fields.next().unwrap();
let value = fields.next().unwrap();
(ident, name, Some(value))
}
_ => panic!("defvar form was too long {path:?}"),
};
all_defvar.push((ident, name, value, defvar_type));
}
// process all strings starting with defsym
for (start, _) in contents.match_indices("\ndefsym!") {
let body = get_substring_between(&contents[start..], "defsym!", ";");
let args = parse_args(body);
let mut fields = args.into_iter();
let name = fields.next().unwrap();
let value = fields.next();
all_defsym.push((name, value));
}
}
}
let out_dir = std::env::var("OUT_DIR").unwrap();
// println!("cargo:warning={out_dir}/sym.rs");
let dest_path = Path::new(&out_dir).join("sym.rs");
let mut f = File::create(dest_path).unwrap();
let symbol_len = all_defsym.len() + all_defun.len() + all_defvar.len() + 2;
writeln!(
f,
"
#[allow(non_upper_case_globals)]
#[allow(non_snake_case)]
#[allow(dead_code)]
pub(crate) mod sym {{
use crate::core::object::SymbolCell;
use crate::core::object::Symbol;
pub(in crate::core) static BUILTIN_SYMBOLS: [SymbolCell; {symbol_len}] = [
SymbolCell::new_static_const(\"nil\"),
SymbolCell::new_static_const(\"t\"),",
)
.unwrap();
// write the list of all defsym to the file
for (sym, name) in &all_defsym {
let sym_name = match name {
Some(name) => name.trim_matches('"').to_string(),
None => map_varname(sym),
};
writeln!(f, " SymbolCell::new_static(\"{sym_name}\"),").unwrap();
}
for (_, name, _, _) in &all_defvar {
#[rustfmt::skip]
writeln!(f, " SymbolCell::new_static_special(\"{name}\"),").unwrap();
}
// write the list of all defun to a file in out_dir
for (_, _, lisp_name) in &all_defun {
#[rustfmt::skip]
writeln!(f, " SymbolCell::new_static(\"{lisp_name}\"),").unwrap();
}
// End BUILTIN_SYMBOLS
writeln!(f, "];\n").unwrap();
let special = ["nil".to_owned(), "true".to_owned()];
let all_elements = special
.iter()
.chain(all_defsym.iter().map(|x| &x.0))
.chain(all_defvar.iter().map(|x| &x.0))
.chain(all_defun.iter().map(|x| &x.1))
.enumerate();
for (idx, element) in all_elements {
let sym_name = element.to_ascii_uppercase();
#[rustfmt::skip]
writeln!(f, "pub(crate) const {sym_name}: Symbol = Symbol::new_builtin({idx});").unwrap();
}
// all SubrFn
let subr_len = all_defun.len();
writeln!(f, "static SUBR_DEFS: [&crate::core::object::SubrFn; {subr_len}] = [",).unwrap();
for (subr_name, _, _) in &all_defun {
writeln!(f, " &{subr_name},",).unwrap();
}
// End SUBR_DEFS
writeln!(f, "];\n").unwrap();
let defun_start = symbol_len - subr_len;
writeln!(
f,
"
pub(crate) fn init_symbols() {{
for (sym, func) in BUILTIN_SYMBOLS[{defun_start}..].iter().zip(SUBR_DEFS.iter()) {{
unsafe {{ sym.set_func((*func).into()).unwrap(); }}
}}
}}
"
)
.unwrap();
// End mod sym
writeln!(f, "}}").unwrap();
writeln!(
f,
"
use std::sync::LazyLock;
pub(crate) static INTERNED_SYMBOLS: LazyLock<std::sync::Mutex<SymbolMap>> = LazyLock::new(|| std::sync::Mutex::new({{
let size: usize = {symbol_len};
let mut map = SymbolMapCore::with_capacity(size);
for sym in &sym::BUILTIN_SYMBOLS {{
map.pre_init(unsafe {{Symbol::from_ptr(sym as *const _)}});
}}
SymbolMap {{
map,
block: Block::new_global(),
}}
}}));
"
)
.unwrap();
writeln!(
f,
"
#[allow(unused_qualifications)]
pub(crate) fn init_variables(
cx: &crate::core::gc::Context,
env: &mut crate::core::gc::Rt<crate::core::env::Env>,
) {{
use crate::core::object;
use rune_core::macros::list;
"
)
.unwrap();
let mut bool_vars = Vec::new();
// write out the value of each defvar
for (ident, _, value, ty) in all_defvar {
// handled below
if ident == "BYTE_BOOLEAN_VARS" {
continue;
}
let mut value = value.unwrap_or_else(|| "object::NIL".to_string());
// if value starts with list! then insert cx before that last character
if value.starts_with("list") {
let len = value.len();
value.insert_str(len - 1, "; cx");
}
writeln!(f, "env.vars.insert(sym::{ident}, cx.add({value}));").unwrap();
if DefvarType::Bool == ty {
bool_vars.push(ident);
}
}
// write out the boolean vars
writeln!(f, "let bool_vars = list![").unwrap();
for ident in bool_vars {
writeln!(f, " sym::{ident},").unwrap();
}
writeln!(f, "; cx];").unwrap();
writeln!(f, "env.vars.insert(sym::BYTE_BOOLEAN_VARS, bool_vars);").unwrap();
writeln!(f, "}}").unwrap();
}