use crate::data::meta::Tagged; use crate::data::Value; use crate::errors::ShellError; use std::fmt; use std::ops::Div; use std::path::{Component, Path, PathBuf}; pub fn did_you_mean( obj_source: &Value, field_tried: &Tagged, ) -> Option> { let field_tried = field_tried.as_string().unwrap(); let possibilities = obj_source.data_descriptors(); let mut possible_matches: Vec<_> = possibilities .into_iter() .map(|x| { let word = x.clone(); let distance = natural::distance::levenshtein_distance(&word, &field_tried); (distance, word) }) .collect(); if possible_matches.len() > 0 { possible_matches.sort(); return Some(possible_matches); } None } pub struct AbsoluteFile { inner: PathBuf, } impl AbsoluteFile { pub fn new(path: impl AsRef) -> AbsoluteFile { let path = path.as_ref(); if !path.is_absolute() { panic!( "AbsoluteFile::new must take an absolute path :: {}", path.display() ) } else if path.is_dir() { // At the moment, this is not an invariant, but rather a way to catch bugs // in tests. panic!( "AbsoluteFile::new must not take a directory :: {}", path.display() ) } else { AbsoluteFile { inner: path.to_path_buf(), } } } pub fn dir(&self) -> AbsolutePath { AbsolutePath::new(self.inner.parent().unwrap()) } } impl From for PathBuf { fn from(file: AbsoluteFile) -> Self { file.inner } } impl fmt::Display for AbsoluteFile { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "{}", self.inner.display()) } } pub struct AbsolutePath { inner: PathBuf, } impl AbsolutePath { pub fn new(path: impl AsRef) -> AbsolutePath { let path = path.as_ref(); if path.is_absolute() { AbsolutePath { inner: path.to_path_buf(), } } else { panic!("AbsolutePath::new must take an absolute path") } } } impl fmt::Display for AbsolutePath { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "{}", self.inner.display()) } } impl Div<&str> for &AbsolutePath { type Output = AbsolutePath; fn div(self, rhs: &str) -> Self::Output { let parts = rhs.split("/"); let mut result = self.inner.clone(); for part in parts { result = result.join(part); } AbsolutePath::new(result) } } impl AsRef for AbsolutePath { fn as_ref(&self) -> &Path { self.inner.as_path() } } pub struct RelativePath { inner: PathBuf, } impl RelativePath { pub fn new(path: impl Into) -> RelativePath { let path = path.into(); if path.is_relative() { RelativePath { inner: path } } else { panic!("RelativePath::new must take a relative path") } } } impl> Div for &RelativePath { type Output = RelativePath; fn div(self, rhs: T) -> Self::Output { let parts = rhs.as_ref().split("/"); let mut result = self.inner.clone(); for part in parts { result = result.join(part); } RelativePath::new(result) } } impl fmt::Display for RelativePath { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "{}", self.inner.display()) } } pub enum TaggedValueIter<'a> { Empty, List(indexmap::map::Iter<'a, String, Tagged>), } impl<'a> Iterator for TaggedValueIter<'a> { type Item = (&'a String, &'a Tagged); fn next(&mut self) -> Option { match self { TaggedValueIter::Empty => None, TaggedValueIter::List(iter) => iter.next(), } } } impl Tagged { fn is_dir(&self) -> bool { match self.item() { Value::Row(_) | Value::Table(_) => true, _ => false, } } fn entries(&self) -> TaggedValueIter<'_> { match self.item() { Value::Row(o) => { let iter = o.entries.iter(); TaggedValueIter::List(iter) } _ => TaggedValueIter::Empty, } } } #[derive(Debug, Eq, Ord, PartialEq, PartialOrd)] pub struct ValueResource { pub at: usize, pub loc: PathBuf, } impl ValueResource {} pub struct ValueStructure { pub resources: Vec, } impl ValueStructure { pub fn new() -> ValueStructure { ValueStructure { resources: Vec::::new(), } } pub fn exists(&self, path: &Path) -> bool { if path == Path::new("/") { return true; } let path = if path.starts_with("/") { match path.strip_prefix("/") { Ok(p) => p, Err(_) => path, } } else { path }; let comps: Vec<_> = path.components().map(Component::as_os_str).collect(); let mut is_there = true; for (at, fragment) in comps.iter().enumerate() { is_there = is_there && self .resources .iter() .any(|resource| at == resource.at && *fragment == resource.loc.as_os_str()); } is_there } pub fn walk_decorate(&mut self, start: &Tagged) -> Result<(), ShellError> { self.resources = Vec::::new(); self.build(start, 0)?; self.resources.sort(); Ok(()) } fn build(&mut self, src: &Tagged, lvl: usize) -> Result<(), ShellError> { for entry in src.entries() { let value = entry.1; let path = entry.0; self.resources.push(ValueResource { at: lvl, loc: PathBuf::from(path), }); if value.is_dir() { self.build(value, lvl + 1)?; } } Ok(()) } } #[derive(Debug, Eq, Ord, PartialEq, PartialOrd)] pub struct Res { pub at: usize, pub loc: PathBuf, } impl Res {} pub struct FileStructure { pub resources: Vec, } impl FileStructure { pub fn new() -> FileStructure { FileStructure { resources: Vec::::new(), } } pub fn contains_more_than_one_file(&self) -> bool { self.resources.len() > 1 } pub fn contains_files(&self) -> bool { self.resources.len() > 0 } pub fn paths_applying_with( &mut self, to: F, ) -> Result, Box> where F: Fn((PathBuf, usize)) -> Result<(PathBuf, PathBuf), Box>, { self.resources .iter() .map(|f| (PathBuf::from(&f.loc), f.at)) .map(|f| to(f)) .collect() } pub fn walk_decorate(&mut self, start_path: &Path) -> Result<(), ShellError> { self.resources = Vec::::new(); self.build(start_path, 0)?; self.resources.sort(); Ok(()) } fn build(&mut self, src: &Path, lvl: usize) -> Result<(), ShellError> { let source = dunce::canonicalize(src)?; if source.is_dir() { for entry in std::fs::read_dir(src)? { let entry = entry?; let path = entry.path(); if path.is_dir() { self.build(&path, lvl + 1)?; } self.resources.push(Res { loc: path.to_path_buf(), at: lvl, }); } } else { self.resources.push(Res { loc: source, at: lvl, }); } Ok(()) } } #[cfg(test)] mod tests { use super::{FileStructure, Res, ValueResource, ValueStructure}; use crate::data::meta::{Tag, Tagged}; use crate::data::{TaggedDictBuilder, Value}; use pretty_assertions::assert_eq; use std::path::PathBuf; fn fixtures() -> PathBuf { let mut sdx = PathBuf::new(); sdx.push("tests"); sdx.push("fixtures"); sdx.push("formats"); match dunce::canonicalize(sdx) { Ok(path) => path, Err(_) => panic!("Wrong path."), } } fn structured_sample_record(key: &str, value: &str) -> Tagged { let mut record = TaggedDictBuilder::new(Tag::unknown()); record.insert(key.clone(), Value::string(value)); record.into_tagged_value() } fn sample_nushell_source_code() -> Tagged { /* src commands plugins => "sys.rs" tests helpers => "mod.rs" */ let mut src = TaggedDictBuilder::new(Tag::unknown()); let mut record = TaggedDictBuilder::new(Tag::unknown()); record.insert_tagged("commands", structured_sample_record("plugins", "sys.rs")); record.insert_tagged("tests", structured_sample_record("helpers", "mod.rs")); src.insert_tagged("src", record.into_tagged_value()); src.into_tagged_value() } #[test] fn prepares_and_decorates_value_filesystemlike_sources() { let mut res = ValueStructure::new(); res.walk_decorate(&sample_nushell_source_code()) .expect("Can not decorate values traversal."); assert_eq!( res.resources, vec![ ValueResource { loc: PathBuf::from("src"), at: 0, }, ValueResource { loc: PathBuf::from("commands"), at: 1, }, ValueResource { loc: PathBuf::from("tests"), at: 1, }, ValueResource { loc: PathBuf::from("helpers"), at: 2, }, ValueResource { loc: PathBuf::from("plugins"), at: 2, }, ] ); } #[test] fn recognizes_if_path_exists_in_value_filesystemlike_sources() { let mut res = ValueStructure::new(); res.walk_decorate(&sample_nushell_source_code()) .expect("Can not decorate values traversal."); assert!(res.exists(&PathBuf::from("/"))); assert!(res.exists(&PathBuf::from("src/commands/plugins"))); assert!(res.exists(&PathBuf::from("src/commands"))); assert!(res.exists(&PathBuf::from("src/tests"))); assert!(res.exists(&PathBuf::from("src/tests/helpers"))); assert!(res.exists(&PathBuf::from("src"))); assert!(res.exists(&PathBuf::from("/src/commands/plugins"))); assert!(res.exists(&PathBuf::from("/src/commands"))); assert!(res.exists(&PathBuf::from("/src/tests"))); assert!(res.exists(&PathBuf::from("/src/tests/helpers"))); assert!(res.exists(&PathBuf::from("/src"))); assert!(!res.exists(&PathBuf::from("/not_valid"))); assert!(!res.exists(&PathBuf::from("/src/not_valid"))); } #[test] fn prepares_and_decorates_filesystem_source_files() { let mut res = FileStructure::new(); res.walk_decorate(&fixtures()) .expect("Can not decorate files traversal."); assert_eq!( res.resources, vec![ Res { loc: fixtures().join("appveyor.yml"), at: 0 }, Res { loc: fixtures().join("caco3_plastics.csv"), at: 0 }, Res { loc: fixtures().join("caco3_plastics.tsv"), at: 0 }, Res { loc: fixtures().join("cargo_sample.toml"), at: 0 }, Res { loc: fixtures().join("fileA.txt"), at: 0 }, Res { loc: fixtures().join("jonathan.xml"), at: 0 }, Res { loc: fixtures().join("sample.bson"), at: 0 }, Res { loc: fixtures().join("sample.db"), at: 0 }, Res { loc: fixtures().join("sample.ini"), at: 0 }, Res { loc: fixtures().join("sample.url"), at: 0 }, Res { loc: fixtures().join("sgml_description.json"), at: 0 }, Res { loc: fixtures().join("utf16.ini"), at: 0 } ] ); } }