use crate::traits::{ImportSpec, ModuleId, ModuleResolver, Resolution, ResolverConfig};
use crate::{ContainerBody, Import, Language, LanguageSymbols};
use std::path::{Path, PathBuf};
use tree_sitter::Node;
pub struct ReScript;
impl Language for ReScript {
fn name(&self) -> &'static str {
"ReScript"
}
fn extensions(&self) -> &'static [&'static str] {
&["res", "resi"]
}
fn grammar_name(&self) -> &'static str {
"rescript"
}
fn as_symbols(&self) -> Option<&dyn LanguageSymbols> {
Some(self)
}
fn extract_imports(&self, node: &Node, content: &str) -> Vec<Import> {
if node.kind() != "open_statement" {
return Vec::new();
}
let text = &content[node.byte_range()];
vec![Import {
module: text.trim().to_string(),
names: Vec::new(),
alias: None,
is_wildcard: true,
is_relative: false,
line: node.start_position().row + 1,
}]
}
fn format_import(&self, import: &Import, _names: Option<&[&str]>) -> String {
format!("open {}", import.module)
}
fn is_test_symbol(&self, symbol: &crate::Symbol) -> bool {
let name = symbol.name.as_str();
match symbol.kind {
crate::SymbolKind::Function | crate::SymbolKind::Method => name.starts_with("test_"),
crate::SymbolKind::Module => name == "tests" || name == "test",
_ => false,
}
}
fn container_body<'a>(&self, node: &'a Node<'a>) -> Option<Node<'a>> {
node.child_by_field_name("body")
}
fn analyze_container_body(
&self,
body_node: &Node,
content: &str,
inner_indent: &str,
) -> Option<ContainerBody> {
crate::body::analyze_brace_body(body_node, content, inner_indent)
}
fn module_resolver(&self) -> Option<&dyn ModuleResolver> {
static RESOLVER: ReScriptModuleResolver = ReScriptModuleResolver;
Some(&RESOLVER)
}
}
impl LanguageSymbols for ReScript {}
pub struct ReScriptModuleResolver;
impl ModuleResolver for ReScriptModuleResolver {
fn workspace_config(&self, root: &Path) -> ResolverConfig {
let mut search_roots: Vec<PathBuf> = Vec::new();
for config_name in &["bsconfig.json", "rescript.json"] {
let config_path = root.join(config_name);
if let Ok(content) = std::fs::read_to_string(&config_path)
&& let Ok(json) = serde_json::from_str::<serde_json::Value>(&content)
&& let Some(sources) = json.get("sources")
{
match sources {
serde_json::Value::String(s) => {
let dir = root.join(s);
if dir.is_dir() {
search_roots.push(dir);
}
}
serde_json::Value::Array(arr) => {
for item in arr {
let dir_str = item
.as_str()
.or_else(|| item.get("dir").and_then(|d| d.as_str()));
if let Some(dir_s) = dir_str {
let dir = root.join(dir_s);
if dir.is_dir() {
search_roots.push(dir);
}
}
}
}
_ => {}
}
break;
}
}
if search_roots.is_empty() {
for d in &["src", "lib"] {
let dir = root.join(d);
if dir.is_dir() {
search_roots.push(dir);
}
}
search_roots.push(root.to_path_buf());
}
ResolverConfig {
workspace_root: root.to_path_buf(),
path_mappings: Vec::new(),
search_roots,
}
}
fn module_of_file(&self, _root: &Path, file: &Path, _cfg: &ResolverConfig) -> Vec<ModuleId> {
let ext = file.extension().and_then(|e| e.to_str()).unwrap_or("");
if ext != "res" && ext != "resi" {
return Vec::new();
}
if let Some(stem) = file.file_stem().and_then(|s| s.to_str()) {
let module_name = {
let mut chars = stem.chars();
match chars.next() {
None => String::new(),
Some(c) => c.to_uppercase().collect::<String>() + chars.as_str(),
}
};
return vec![ModuleId {
canonical_path: module_name,
}];
}
Vec::new()
}
fn resolve(&self, from_file: &Path, spec: &ImportSpec, cfg: &ResolverConfig) -> Resolution {
let ext = from_file.extension().and_then(|e| e.to_str()).unwrap_or("");
if ext != "res" && ext != "resi" {
return Resolution::NotApplicable;
}
let raw = &spec.raw;
let module_name = raw.strip_prefix("open ").unwrap_or(raw).trim();
if module_name.is_empty() {
return Resolution::NotFound;
}
for search_root in &cfg.search_roots {
for ext_try in &["res", "resi"] {
let candidate = search_root.join(format!("{}.{}", module_name, ext_try));
if candidate.exists() {
return Resolution::Resolved(candidate, module_name.to_string());
}
}
}
Resolution::NotFound
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::validate_unused_kinds_audit;
#[test]
fn unused_node_kinds_audit() {
#[rustfmt::skip]
let documented_unused: &[&str] = &[
"try_expression", "ternary_expression", "while_expression", "for_expression",
"call_expression", "pipe_expression", "sequence_expression", "await_expression",
"coercion_expression", "lazy_expression", "assert_expression",
"parenthesized_expression", "unary_expression", "binary_expression",
"subscript_expression", "member_expression", "mutation_expression",
"extension_expression",
"type_identifier", "type_identifier_path", "unit_type", "generic_type",
"function_type", "polyvar_type", "polymorphic_type", "tuple_type",
"record_type", "record_type_field", "object_type", "variant_type",
"abstract_type", "type_arguments", "type_parameters", "type_constraint",
"type_annotation", "type_spread", "constrain_type",
"as_aliasing_type", "function_type_parameters",
"parenthesized_module_expression", "module_type_constraint", "module_type_annotation",
"module_type_of", "constrain_module", "module_identifier", "module_identifier_path",
"module_pack", "module_unpack",
"let_declaration", "exception_declaration", "variant_declaration",
"polyvar_declaration", "include_statement",
"jsx_expression", "jsx_identifier", "nested_jsx_identifier",
"exception_pattern", "polyvar_type_pattern",
"value_identifier_path", "variant_identifier",
"nested_variant_identifier", "polyvar_identifier", "property_identifier",
"extension_identifier", "decorator_identifier",
"else_clause", "else_if_clause",
"function", "expression_statement", "formal_parameters",
"if_expression",
"block",
"switch_expression",
"open_statement",
"switch_match",
];
validate_unused_kinds_audit(&ReScript, documented_unused)
.expect("ReScript unused node kinds audit failed");
}
}