#[global_allocator] static ALLOC: jemallocator::Jemalloc = jemallocator::Jemalloc; use std::collections::btree_map::{BTreeMap, Entry}; use std::iter::FromIterator; use std::io::{self, Write}; use std::path::PathBuf; use std::error::Error; use hashbrown::{HashMap, HashSet}; use termcolor::{Color, ColorChoice, ColorSpec, StandardStream, WriteColor}; use structopt::StructOpt; use meilidb::database::schema::SchemaAttr; use meilidb::database::Database; use meilidb::Match; #[derive(Debug, StructOpt)] pub struct Opt { /// The destination where the database must be created #[structopt(parse(from_os_str))] pub database_path: PathBuf, /// Fields that must be displayed. pub displayed_fields: Vec, /// The number of returned results #[structopt(short = "n", long = "number-results", default_value = "10")] pub number_results: usize, } type Document = HashMap; fn display_highlights(text: &str, ranges: &[usize]) -> io::Result<()> { let mut stdout = StandardStream::stdout(ColorChoice::Always); let mut highlighted = false; for range in ranges.windows(2) { let [start, end] = match range { [start, end] => [*start, *end], _ => unreachable!() }; if highlighted { stdout.set_color(ColorSpec::new().set_fg(Some(Color::Yellow)))?; } write!(&mut stdout, "{}", &text[start..end])?; stdout.reset()?; highlighted = !highlighted; } Ok(()) } fn create_highlight_areas(text: &str, matches: &[Match], attribute: SchemaAttr) -> Vec { let mut byte_indexes = BTreeMap::new(); for match_ in matches { let match_attribute = match_.attribute.attribute(); if SchemaAttr::new(match_attribute) == attribute { let word_area = match_.word_area; let byte_index = word_area.byte_index() as usize; let length = word_area.length() as usize; match byte_indexes.entry(byte_index) { Entry::Vacant(entry) => { entry.insert(length); }, Entry::Occupied(mut entry) => if *entry.get() < length { entry.insert(length); }, } } } let mut title_areas = Vec::new(); title_areas.push(0); for (byte_index, length) in byte_indexes { title_areas.push(byte_index); title_areas.push(byte_index + length); } title_areas.push(text.len()); title_areas.sort_unstable(); title_areas } fn main() -> Result<(), Box> { let _ = env_logger::init(); let opt = Opt::from_args(); let (elapsed, result) = elapsed::measure_time(|| Database::open(&opt.database_path)); let database = result?; println!("database prepared for you in {}", elapsed); let mut buffer = String::new(); let input = io::stdin(); loop { print!("Searching for: "); io::stdout().flush()?; if input.read_line(&mut buffer)? == 0 { break } let query = buffer.trim_end_matches('\n'); let view = database.view(); let schema = view.schema(); let (elapsed, documents) = elapsed::measure_time(|| { let builder = view.query_builder().unwrap(); builder.query(query, 0..opt.number_results) }); let number_of_documents = documents.len(); for doc in documents { match view.document_by_id::(doc.id) { Ok(document) => { for name in &opt.displayed_fields { let attr = match schema.attribute(name) { Some(attr) => attr, None => continue, }; let text = match document.get(name) { Some(text) => text, None => continue, }; print!("{}: ", name); let areas = create_highlight_areas(&text, &doc.matches, attr); display_highlights(&text, &areas)?; println!(); } }, Err(e) => eprintln!("{}", e), } let mut matching_attributes = HashSet::new(); for _match in doc.matches { let attr = SchemaAttr::new(_match.attribute.attribute()); let name = schema.attribute_name(attr); matching_attributes.insert(name); } let matching_attributes = Vec::from_iter(matching_attributes); println!("matching in: {:?}", matching_attributes); println!(); } eprintln!("===== Found {} results in {} =====", number_of_documents, elapsed); buffer.clear(); } Ok(()) }