use std::iter::repeat; use std::string::ToString; use colours::Colours; use column::{Alignment, Column, Cell}; use dir::Dir; use feature::Attribute; use file::fields as f; use file::File; use options::{Columns, FileFilter, RecurseOptions, SizeFormat}; use ansi_term::{ANSIString, ANSIStrings, Style}; use datetime::local::{LocalDateTime, DatePiece}; use datetime::format::{DateFormat}; use datetime::zoned::{VariableOffset, TimeZone}; use locale; use number_prefix::{binary_prefix, decimal_prefix, Prefixed, Standalone, PrefixNames}; use users::{OSUsers, Users}; use users::mock::MockUsers; use super::filename; /// With the **Details** view, the output gets formatted into columns, with /// each `Column` object showing some piece of information about the file, /// such as its size, or its permissions. /// /// To do this, the results have to be written to a table, instead of /// displaying each file immediately. Then, the width of each column can be /// calculated based on the individual results, and the fields are padded /// during output. /// /// Almost all the heavy lifting is done in a Table object, which handles the /// columns for each row. #[derive(PartialEq, Debug, Copy, Clone, Default)] pub struct Details { /// A Columns object that says which columns should be included in the /// output in the general case. Directories themselves can pick which /// columns are *added* to this list, such as the Git column. pub columns: Option, /// Whether to recurse through directories with a tree view, and if so, /// which options to use. This field is only relevant here if the `tree` /// field of the RecurseOptions is `true`. pub recurse: Option<(RecurseOptions, FileFilter)>, /// Whether to show a header line or not. pub header: bool, /// Whether to show each file's extended attributes. pub xattr: bool, /// The colours to use to display information in the table, including the /// colour of the tree view symbols. pub colours: Colours, } impl Details { pub fn view(&self, dir: Option<&Dir>, files: &[File]) { // First, transform the Columns object into a vector of columns for // the current directory. let columns_for_dir = match self.columns { Some(cols) => cols.for_dir(dir), None => Vec::new(), }; let mut table = Table::with_options(self.colours, columns_for_dir); if self.header { table.add_header() } // Then add files to the table and print it out. self.add_files_to_table(&mut table, files, 0); for cell in table.print_table(self.xattr, self.recurse.is_some()) { println!("{}", cell.text); } } /// Adds files to the table - recursively, if the `recurse` option /// is present. fn add_files_to_table(&self, table: &mut Table, src: &[File], depth: usize) { for (index, file) in src.iter().enumerate() { table.add_file(file, depth, index == src.len() - 1, true); // There are two types of recursion that exa supports: a tree // view, which is dealt with here, and multiple listings, which is // dealt with in the main module. So only actually recurse if we // are in tree mode - the other case will be dealt with elsewhere. if let Some((r, filter)) = self.recurse { if r.tree == false || r.is_too_deep(depth) { continue; } // Use the filter to remove unwanted files *before* expanding // them, so we don't examine any directories that wouldn't // have their contents listed anyway. if let Some(ref dir) = file.this { let mut files = dir.files(true).flat_map(|f| f).collect(); filter.transform_files(&mut files); self.add_files_to_table(table, &files, depth + 1); } } } } } struct Row { /// Vector of cells to display. cells: Vec, /// This file's name, in coloured output. The name is treated separately /// from the other cells, as it never requires padding. name: Cell, /// How many directories deep into the tree structure this is. Directories /// on top have depth 0. depth: usize, /// Vector of this file's extended attributes, if that feature is active. attrs: Vec, /// Whether this is the last entry in the directory. This flag is used /// when calculating the tree view. last: bool, /// Whether this file is a directory and has any children. Also used when /// calculating the tree view. children: bool, } /// A **Table** object gets built up by the view as it lists files and /// directories. pub struct Table { columns: Vec, rows: Vec, time: locale::Time, numeric: locale::Numeric, tz: VariableOffset, users: U, colours: Colours, current_year: i64, } impl Default for Table { fn default() -> Table { Table { columns: Columns::default().for_dir(None), rows: Vec::new(), time: locale::Time::english(), numeric: locale::Numeric::english(), tz: VariableOffset::localtime().unwrap(), users: MockUsers::with_current_uid(0), colours: Colours::default(), current_year: 1234, } } } impl Table { /// Create a new, empty Table object, setting the caching fields to their /// empty states. pub fn with_options(colours: Colours, columns: Vec) -> Table { Table { columns: columns, rows: Vec::new(), time: locale::Time::load_user_locale().unwrap_or_else(|_| locale::Time::english()), numeric: locale::Numeric::load_user_locale().unwrap_or_else(|_| locale::Numeric::english()), tz: VariableOffset::localtime().unwrap(), users: OSUsers::empty_cache(), colours: colours, current_year: LocalDateTime::now().year(), } } } impl Table where U: Users { /// Add a dummy "header" row to the table, which contains the names of all /// the columns, underlined. This has dummy data for the cases that aren't /// actually used, such as the depth or list of attributes. pub fn add_header(&mut self) { let row = Row { depth: 0, cells: self.columns.iter().map(|c| Cell::paint(self.colours.header, c.header())).collect(), name: Cell::paint(self.colours.header, "Name"), last: false, attrs: Vec::new(), children: false, }; self.rows.push(row); } /// Get the cells for the given file, and add the result to the table. pub fn add_file(&mut self, file: &File, depth: usize, last: bool, links: bool) { let cells = self.cells_for_file(file); self.add_file_with_cells(cells, file, depth, last, links) } pub fn add_file_with_cells(&mut self, cells: Vec, file: &File, depth: usize, last: bool, links: bool) { let row = Row { depth: depth, cells: cells, name: Cell { text: filename(file, &self.colours, links), length: file.file_name_width() }, last: last, attrs: file.xattrs.clone(), children: file.this.is_some(), }; self.rows.push(row); } /// Use the list of columns to find which cells should be produced for /// this file, per-column. pub fn cells_for_file(&mut self, file: &File) -> Vec { self.columns.clone().iter() .map(|c| self.display(file, c)) .collect() } fn display(&mut self, file: &File, column: &Column) -> Cell { match *column { Column::Permissions => self.render_permissions(file.permissions()), Column::FileSize(fmt) => self.render_size(file.size(), fmt), Column::Timestamp(t) => self.render_time(file.timestamp(t)), Column::HardLinks => self.render_links(file.links()), Column::Inode => self.render_inode(file.inode()), Column::Blocks => self.render_blocks(file.blocks()), Column::User => self.render_user(file.user()), Column::Group => self.render_group(file.group()), Column::GitStatus => self.render_git_status(file.git_status()), } } fn render_permissions(&self, permissions: f::Permissions) -> Cell { let c = self.colours.perms; let bit = |bit, chr: &'static str, style: Style| { if bit { style.paint(chr) } else { self.colours.punctuation.paint("-") } }; let file_type = match permissions.file_type { f::Type::File => self.colours.filetypes.normal.paint("."), f::Type::Directory => self.colours.filetypes.directory.paint("d"), f::Type::Pipe => self.colours.filetypes.special.paint("|"), f::Type::Link => self.colours.filetypes.symlink.paint("l"), f::Type::Special => self.colours.filetypes.special.paint("?"), }; let x_colour = if let f::Type::File = permissions.file_type { c.user_execute_file } else { c.user_execute_other }; let mut columns = vec![ file_type, bit(permissions.user_read, "r", c.user_read), bit(permissions.user_write, "w", c.user_write), bit(permissions.user_execute, "x", x_colour), bit(permissions.group_read, "r", c.group_read), bit(permissions.group_write, "w", c.group_write), bit(permissions.group_execute, "x", c.group_execute), bit(permissions.other_read, "r", c.other_read), bit(permissions.other_write, "w", c.other_write), bit(permissions.other_execute, "x", c.other_execute), ]; if permissions.attribute { columns.push(c.attribute.paint("@")); } Cell { text: ANSIStrings(&columns).to_string(), length: columns.len(), } } fn render_links(&self, links: f::Links) -> Cell { let style = if links.multiple { self.colours.links.multi_link_file } else { self.colours.links.normal }; Cell::paint(style, &self.numeric.format_int(links.count)) } fn render_blocks(&self, blocks: f::Blocks) -> Cell { match blocks { f::Blocks::Some(blocks) => Cell::paint(self.colours.blocks, &blocks.to_string()), f::Blocks::None => Cell::paint(self.colours.punctuation, "-"), } } fn render_inode(&self, inode: f::Inode) -> Cell { Cell::paint(self.colours.inode, &inode.0.to_string()) } fn render_size(&self, size: f::Size, size_format: SizeFormat) -> Cell { if let f::Size::Some(offset) = size { let result = match size_format { SizeFormat::DecimalBytes => decimal_prefix(offset as f64), SizeFormat::BinaryBytes => binary_prefix(offset as f64), SizeFormat::JustBytes => return Cell::paint(self.colours.size.numbers, &self.numeric.format_int(offset)), }; match result { Standalone(bytes) => Cell::paint(self.colours.size.numbers, &*bytes.to_string()), Prefixed(prefix, n) => { let number = if n < 10f64 { self.numeric.format_float(n, 1) } else { self.numeric.format_int(n as isize) }; let symbol = prefix.symbol(); Cell { text: ANSIStrings( &[ self.colours.size.numbers.paint(&number[..]), self.colours.size.unit.paint(symbol) ]).to_string(), length: number.len() + symbol.len(), } } } } else { Cell::paint(self.colours.punctuation, "-") } } fn render_time(&self, timestamp: f::Time) -> Cell { let date = self.tz.at(LocalDateTime::at(timestamp.0)); let format = if date.year() == self.current_year { DateFormat::parse("{2>:D} {:M} {2>:h}:{02>:m}").unwrap() } else { DateFormat::parse("{2>:D} {:M} {5>:Y}").unwrap() }; Cell::paint(self.colours.date, &format.format(&date, &self.time)) } fn render_git_status(&self, git: f::Git) -> Cell { Cell { text: ANSIStrings(&[ self.render_git_char(git.staged), self.render_git_char(git.unstaged) ]).to_string(), length: 2, } } fn render_git_char(&self, status: f::GitStatus) -> ANSIString { match status { f::GitStatus::NotModified => self.colours.punctuation.paint("-"), f::GitStatus::New => self.colours.git.new.paint("N"), f::GitStatus::Modified => self.colours.git.modified.paint("M"), f::GitStatus::Deleted => self.colours.git.deleted.paint("D"), f::GitStatus::Renamed => self.colours.git.renamed.paint("R"), f::GitStatus::TypeChange => self.colours.git.typechange.paint("T"), } } fn render_user(&mut self, user: f::User) -> Cell { let user_name = match self.users.get_user_by_uid(user.0) { Some(user) => user.name, None => user.0.to_string(), }; let style = if self.users.get_current_uid() == user.0 { self.colours.users.user_you } else { self.colours.users.user_someone_else }; Cell::paint(style, &*user_name) } fn render_group(&mut self, group: f::Group) -> Cell { let mut style = self.colours.users.group_not_yours; let group_name = match self.users.get_group_by_gid(group.0) { Some(group) => { let current_uid = self.users.get_current_uid(); if let Some(current_user) = self.users.get_user_by_uid(current_uid) { if current_user.primary_group == group.gid || group.members.contains(¤t_user.name) { style = self.colours.users.group_yours; } } group.name }, None => group.0.to_string(), }; Cell::paint(style, &*group_name) } /// Print the table to standard output, consuming it in the process. pub fn print_table(&self, xattr: bool, show_children: bool) -> Vec { let mut stack = Vec::new(); let mut cells = Vec::new(); // Work out the list of column widths by finding the longest cell for // each column, then formatting each cell in that column to be the // width of that one. let column_widths: Vec = (0 .. self.columns.len()) .map(|n| self.rows.iter().map(|row| row.cells[n].length).max().unwrap_or(0)) .collect(); for row in self.rows.iter() { let mut cell = Cell::empty(); for (n, width) in column_widths.iter().enumerate() { match self.columns[n].alignment() { Alignment::Left => { cell.append(&row.cells[n]); cell.add_spaces(width - row.cells[n].length); } Alignment::Right => { cell.add_spaces(width - row.cells[n].length); cell.append(&row.cells[n]); } } cell.add_spaces(1); } let mut filename = String::new(); let mut filename_length = 0; // A stack tracks which tree characters should be printed. It's // necessary to maintain information about the previously-printed // lines, as the output will change based on whether the // *previous* entry was the last in its directory. if show_children { stack.resize(row.depth + 1, TreePart::Edge); stack[row.depth] = if row.last { TreePart::Corner } else { TreePart::Edge }; for i in 1 .. row.depth + 1 { filename.push_str(&*self.colours.punctuation.paint(stack[i].ascii_art()).to_string()); filename_length += 4; } if row.children { stack[row.depth] = if row.last { TreePart::Blank } else { TreePart::Line }; } // If any tree characters have been printed, then add an extra // space, which makes the output look much better. if row.depth != 0 { filename.push(' '); filename_length += 1; } } // Print the name without worrying about padding. filename.push_str(&*row.name.text); filename_length += row.name.length; if xattr { let width = row.attrs.iter().map(|a| a.name().len()).max().unwrap_or(0); for attr in row.attrs.iter() { let name = attr.name(); let spaces: String = repeat(" ").take(width - name.len()).collect(); filename.push_str(&*format!("\n{}{} {}", name, spaces, attr.size())) } } cell.append(&Cell { text: filename, length: filename_length }); cells.push(cell); } cells } } #[derive(PartialEq, Debug, Clone)] enum TreePart { /// Rightmost column, *not* the last in the directory. Edge, /// Not the rightmost column, and the directory has not finished yet. Line, /// Rightmost column, and the last in the directory. Corner, /// Not the rightmost column, and the directory *has* finished. Blank, } impl TreePart { fn ascii_art(&self) -> &'static str { match *self { TreePart::Edge => "├──", TreePart::Line => "│ ", TreePart::Corner => "└──", TreePart::Blank => " ", } } } #[cfg(test)] pub mod test { pub use super::Table; pub use file::File; pub use file::fields as f; pub use column::{Cell, Column}; pub use users::{User, Group, uid_t, gid_t}; pub use users::mock::MockUsers; pub use ansi_term::Style; pub use ansi_term::Colour::*; pub fn newser(uid: uid_t, name: &str, group: gid_t) -> User { User { uid: uid, name: name.to_string(), primary_group: group, home_dir: String::new(), shell: String::new(), } } // These tests create a new, default Table object, then fill in the // expected style in a certain way. This means we can check that the // right style is being used, as otherwise, it would just be plain. // // Doing things with fields is way easier than having to fake the entire // Metadata struct, which is what I was doing before! mod users { use super::*; #[test] fn named() { let mut table = Table::default(); table.colours.users.user_you = Red.bold(); let mut users = MockUsers::with_current_uid(1000); users.add_user(newser(1000, "enoch", 100)); table.users = users; let user = f::User(1000); let expected = Cell::paint(Red.bold(), "enoch"); assert_eq!(expected, table.render_user(user)) } #[test] fn unnamed() { let mut table = Table::default(); table.colours.users.user_you = Cyan.bold(); let users = MockUsers::with_current_uid(1000); table.users = users; let user = f::User(1000); let expected = Cell::paint(Cyan.bold(), "1000"); assert_eq!(expected, table.render_user(user)); } #[test] fn different_named() { let mut table = Table::default(); table.colours.users.user_someone_else = Green.bold(); table.users.add_user(newser(1000, "enoch", 100)); let user = f::User(1000); let expected = Cell::paint(Green.bold(), "enoch"); assert_eq!(expected, table.render_user(user)); } #[test] fn different_unnamed() { let mut table = Table::default(); table.colours.users.user_someone_else = Red.normal(); let user = f::User(1000); let expected = Cell::paint(Red.normal(), "1000"); assert_eq!(expected, table.render_user(user)); } #[test] fn overflow() { let mut table = Table::default(); table.colours.users.user_someone_else = Blue.underline(); let user = f::User(2_147_483_648); let expected = Cell::paint(Blue.underline(), "2147483648"); assert_eq!(expected, table.render_user(user)); } } mod groups { use super::*; #[test] fn named() { let mut table = Table::default(); table.colours.users.group_not_yours = Fixed(101).normal(); let mut users = MockUsers::with_current_uid(1000); users.add_group(Group { gid: 100, name: "folk".to_string(), members: vec![] }); table.users = users; let group = f::Group(100); let expected = Cell::paint(Fixed(101).normal(), "folk"); assert_eq!(expected, table.render_group(group)) } #[test] fn unnamed() { let mut table = Table::default(); table.colours.users.group_not_yours = Fixed(87).normal(); let users = MockUsers::with_current_uid(1000); table.users = users; let group = f::Group(100); let expected = Cell::paint(Fixed(87).normal(), "100"); assert_eq!(expected, table.render_group(group)); } #[test] fn primary() { let mut table = Table::default(); table.colours.users.group_yours = Fixed(64).normal(); let mut users = MockUsers::with_current_uid(2); users.add_user(newser(2, "eve", 100)); users.add_group(Group { gid: 100, name: "folk".to_string(), members: vec![] }); table.users = users; let group = f::Group(100); let expected = Cell::paint(Fixed(64).normal(), "folk"); assert_eq!(expected, table.render_group(group)) } #[test] fn secondary() { let mut table = Table::default(); table.colours.users.group_yours = Fixed(31).normal(); let mut users = MockUsers::with_current_uid(2); users.add_user(newser(2, "eve", 666)); users.add_group(Group { gid: 100, name: "folk".to_string(), members: vec![ "eve".to_string() ] }); table.users = users; let group = f::Group(100); let expected = Cell::paint(Fixed(31).normal(), "folk"); assert_eq!(expected, table.render_group(group)) } #[test] fn overflow() { let mut table = Table::default(); table.colours.users.group_not_yours = Blue.underline(); let group = f::Group(2_147_483_648); let expected = Cell::paint(Blue.underline(), "2147483648"); assert_eq!(expected, table.render_group(group)); } } }