extern crate ignore; extern crate json5; extern crate serde_json; use std::ffi::OsStr; use std::fs; use std::path::Path; use std::{cmp, env, error}; use ignore::Walk; use serde_json::Value; fn main() -> Result<(), Box> { let out_dir = env::var_os("OUT_DIR").expect("No OUT_DIR variable."); generate_languages(&out_dir)?; generate_tests(&out_dir)?; Ok(()) } fn generate_languages(out_dir: &OsStr) -> Result<(), Box> { let mut tera = tera::Tera::default(); let json_string: String = fs::read_to_string("languages.json")?.parse()?; let mut json: Value = json5::from_str(&json_string)?; for (_key, ref mut item) in json .get_mut("languages") .unwrap() .as_object_mut() .unwrap() .iter_mut() { macro_rules! sort_prop { ($prop:expr) => {{ if let Some(ref mut prop) = item.get_mut($prop) { prop.as_array_mut() .unwrap() .sort_unstable_by(compare_json_str_len) } }}; } sort_prop!("quotes"); sort_prop!("verbatim_quotes"); sort_prop!("multi_line"); } let output_path = Path::new(&out_dir).join("language_type.rs"); let rust_code = tera.render_str( &std::fs::read_to_string("src/language/language_type.tera.rs")?, &tera::Context::from_value(json)?, )?; std::fs::write(output_path, rust_code)?; Ok(()) } fn compare_json_str_len(a: &Value, b: &Value) -> cmp::Ordering { let a = a.as_array().expect("a as array"); let b = b.as_array().expect("b as array"); let max_a_size = a.iter().map(|e| e.as_str().unwrap().len()).max().unwrap(); let max_b_size = b.iter().map(|e| e.as_str().unwrap().len()).max().unwrap(); max_b_size.cmp(&max_a_size) } fn generate_tests(out_dir: &OsStr) -> Result<(), Box> { // Length of string literal below by number of languages const INITIAL_BUFFER_SIZE: usize = 989 * 130; let mut string = String::with_capacity(INITIAL_BUFFER_SIZE); generate_tests_batch("./tests/data", None, &mut string)?; generate_tests_batch("./tests/embedding", Some("embedding"), &mut string)?; Ok(fs::write(Path::new(&out_dir).join("tests.rs"), string)?) } fn generate_tests_batch( src_dir: &str, test_module: Option<&str>, string: &mut String, ) -> Result<(), Box> { let walker = Walk::new(src_dir).filter(|p| match p { Ok(ref p) => { if let Ok(ref p) = p.metadata() { p.is_file() } else { false } } _ => false, }); if let Some(test_module) = test_module { string.push_str(&format!( r####" #[cfg(test)] mod {0} {{ use super::*; "####, test_module )); } for path in walker { let path = path?; let path = path.path(); let root = std::path::PathBuf::from(std::env::var("CARGO_MANIFEST_DIR").unwrap()); let name = path.file_stem().unwrap().to_str().unwrap().to_lowercase(); if name == "jupyter" { continue; } string.push_str(&format!( r####" #[test] fn {0}() {{ const _: &str = include_str!(r###"{2}"###); let mut languages = Languages::new(); languages.get_statistics(&["{1}"], &[], &Config::default()); if languages.len() != 1 {{ panic!("wrong languages detected: expected just {0}, found {{:?}}", languages.into_iter().collect::>()); }} let (name, language) = languages.into_iter().next().unwrap(); let mut language = language.summarise(); let contents = fs::read_to_string("{1}").unwrap(); println!("{{}} {1}", name); assert_eq!(get_digit!(LINES, contents), language.lines()); println!("{{}} LINES MATCH", name); assert_eq!(get_digit!(CODE, contents), language.code); println!("{{}} CODE MATCH", name); assert_eq!(get_digit!(COMMENTS, contents), language.comments); println!("{{}} COMMENTS MATCH", name); assert_eq!(get_digit!(BLANKS, contents), language.blanks); println!("{{}} BLANKS MATCH", name); let report = language.reports.pop().unwrap(); let stats = report.stats.summarise(); assert_eq!(language.lines(), stats.lines()); assert_eq!(language.code, stats.code); assert_eq!(language.comments, stats.comments); assert_eq!(language.blanks, stats.blanks); }} "####, name, path.to_string_lossy().replace('\\', "/"), std::fs::canonicalize(root.join(path)).unwrap().display(), )); } if test_module.is_some() { string.push_str("\n}"); } Ok(()) }