use skim::prelude::*; use term::terminfo::TermInfo; use cxx::{CxxString, CxxVector}; use std::panic; #[cxx::bridge] mod ffi { extern "Rust" { fn skim(prefix: &CxxString, words: &CxxVector) -> Result; } } struct Item { text_no_newlines: String, orig_text: String, } impl Item { fn new(text: String) -> Self { return Self{ // Text that will be printed by skim, and will be used for matching. // // Text that will be shown should not contains new lines since in this case skim may // live some symbols on the screen, and this looks odd. text_no_newlines: text.replace("\n", " "), // This will be used when the match had been selected. orig_text: text, }; } } impl SkimItem for Item { fn text(&self) -> Cow { return Cow::Borrowed(&self.text_no_newlines); } fn output(&self) -> Cow { return Cow::Borrowed(&self.orig_text); } } fn skim_impl(prefix: &CxxString, words: &CxxVector) -> Result { // Let's check is terminal available. To avoid panic. if let Err(err) = TermInfo::from_env() { return Err(format!("{}", err)); } let options = SkimOptionsBuilder::default() .height(Some("30%")) .query(Some(prefix.to_str().unwrap())) .tac(true) .tiebreak(Some("-score".to_string())) // Exact mode performs better for SQL. // // Default fuzzy search is too smart for SQL, it even takes into account the case, which // should not be accounted (you don't want to type "SELECT" instead of "select" to find the // query). // // Exact matching seems better algorithm for SQL, it is not 100% exact, it splits by space, // and apply separate matcher actually for each word. // Note, that if you think that "space is not enough" as the delimiter, then you should // first know that this is the delimiter only for the input query, so to match // "system.query_log" you can use "sy qu log" // Also it should be more common for users who did not know how to use fuzzy search. // (also you can disable exact mode by prepending "'" char). // // Also it ignores the case correctly, i.e. it does not have penalty for case mismatch, // like fuzzy algorithms (take a look at SkimScoreConfig::penalty_case_mismatch). .exact(true) .case(CaseMatching::Ignore) .build() .unwrap(); let (tx, rx): (SkimItemSender, SkimItemReceiver) = unbounded(); for word in words { tx.send(Arc::new(Item::new(word.to_string()))).unwrap(); } // so that skim could know when to stop waiting for more items. drop(tx); let output = Skim::run_with(&options, Some(rx)); if output.is_none() { return Err("skim return nothing".to_string()); } let output = output.unwrap(); if output.is_abort { return Ok("".to_string()); } if output.selected_items.is_empty() { return Err("No items had been selected".to_string()); } return Ok(output.selected_items[0].output().to_string()); } fn skim(prefix: &CxxString, words: &CxxVector) -> Result { let ret = panic::catch_unwind(|| { return skim_impl(prefix, words); }); return match ret { Err(err) => { let e = if let Some(s) = err.downcast_ref::() { format!("{}", s) } else if let Some(s) = err.downcast_ref::<&str>() { format!("{}", s) } else { format!("Unknown panic type: {:?}", err.type_id()) }; Err(format!("Rust panic: {:?}", e)) }, Ok(res) => res, } }