use std::io::{Write, Result as IOResult}; use std::sync::Arc; use ansi_term::ANSIStrings; use users::UsersCache; use term_grid as grid; use fs::{Dir, File}; use fs::feature::xattr::FileAttributes; use output::cell::TextCell; use output::column::Column; use output::details::{Details, Table, Environment}; use output::grid::Grid; use output::file_name::LinkStyle; #[derive(PartialEq, Debug, Clone)] pub struct GridDetails { pub grid: Grid, pub details: Details, } fn file_has_xattrs(file: &File) -> bool { match file.path.attributes() { Ok(attrs) => !attrs.is_empty(), Err(_) => false, } } impl GridDetails { pub fn view(&self, dir: Option<&Dir>, files: Vec, w: &mut W) -> IOResult<()> where W: Write { let columns_for_dir = match self.details.columns { Some(cols) => cols.for_dir(dir), None => Vec::new(), }; let env = Arc::new(Environment::default()); let (cells, file_names) = { let first_table = self.make_table(env.clone(), &*columns_for_dir); let cells = files.iter() .map(|file| first_table.cells_for_file(file, file_has_xattrs(file))) .collect::>(); let file_names = files.into_iter() .map(|file| first_table.filename(file, LinkStyle::JustFilenames).promote()) .collect::>(); (cells, file_names) }; let mut last_working_table = self.make_grid(env.clone(), 1, &columns_for_dir, &file_names, cells.clone()); for column_count in 2.. { let grid = self.make_grid(env.clone(), column_count, &columns_for_dir, &file_names, cells.clone()); let the_grid_fits = { let d = grid.fit_into_columns(column_count); d.is_complete() && d.width() <= self.grid.console_width }; if the_grid_fits { last_working_table = grid; } else { return write!(w, "{}", last_working_table.fit_into_columns(column_count - 1)); } } Ok(()) } fn make_table<'a>(&'a self, env: Arc>, columns_for_dir: &'a [Column]) -> Table { let mut table = Table { columns: columns_for_dir, opts: &self.details, env: env, rows: Vec::new(), }; if self.details.header { table.add_header() } table } fn make_grid<'a>(&'a self, env: Arc>, column_count: usize, columns_for_dir: &'a [Column], file_names: &[TextCell], cells: Vec>) -> grid::Grid { let mut tables = Vec::new(); for _ in 0 .. column_count { tables.push(self.make_table(env.clone(), columns_for_dir)); } let mut num_cells = cells.len(); if self.details.header { num_cells += column_count; } let original_height = divide_rounding_up(cells.len(), column_count); let height = divide_rounding_up(num_cells, column_count); for (i, (file_name, row)) in file_names.iter().zip(cells.into_iter()).enumerate() { let index = if self.grid.across { i % column_count } else { i / original_height }; tables[index].add_file_with_cells(row, file_name.clone(), 0, false); } let columns: Vec<_> = tables.into_iter().map(|t| t.print_table()).collect(); let direction = if self.grid.across { grid::Direction::LeftToRight } else { grid::Direction::TopToBottom }; let mut grid = grid::Grid::new(grid::GridOptions { direction: direction, filling: grid::Filling::Spaces(4), }); if self.grid.across { for row in 0 .. height { for column in &columns { if row < column.len() { let cell = grid::Cell { contents: ANSIStrings(&column[row].contents).to_string(), width: *column[row].width, }; grid.add(cell); } } } } else { for column in &columns { for cell in column.iter() { let cell = grid::Cell { contents: ANSIStrings(&cell.contents).to_string(), width: *cell.width, }; grid.add(cell); } } } grid } } fn divide_rounding_up(a: usize, b: usize) -> usize { let mut result = a / b; if a % b != 0 { result += 1; } result }