use std::io::Write; use std::vec::Vec; use ansi_term::Colour::{Fixed, Green, Red, Yellow}; use ansi_term::Style; use console::AnsiCodeIterator; use syntect::easy::HighlightLines; use syntect::highlighting::Theme; use syntect::parsing::SyntaxSet; use content_inspector::ContentType; use encoding::all::{UTF_16BE, UTF_16LE}; use encoding::{DecoderTrap, Encoding}; use app::Config; use assets::HighlightingAssets; use decorations::{Decoration, GridBorderDecoration, LineChangesDecoration, LineNumberDecoration}; use diff::get_git_diff; use diff::LineChanges; use errors::*; use inputfile::{InputFile, InputFileReader}; use preprocessor::{expand_tabs, replace_nonprintable}; use style::OutputWrap; use terminal::{as_terminal_escaped, to_ansi_color}; pub trait Printer { fn print_header(&mut self, handle: &mut Write, file: InputFile) -> Result<()>; fn print_footer(&mut self, handle: &mut Write) -> Result<()>; fn print_line( &mut self, out_of_range: bool, handle: &mut Write, line_number: usize, line_buffer: &[u8], ) -> Result<()>; } pub struct SimplePrinter; impl SimplePrinter { pub fn new() -> Self { SimplePrinter {} } } impl Printer for SimplePrinter { fn print_header(&mut self, _handle: &mut Write, _file: InputFile) -> Result<()> { Ok(()) } fn print_footer(&mut self, _handle: &mut Write) -> Result<()> { Ok(()) } fn print_line( &mut self, out_of_range: bool, handle: &mut Write, _line_number: usize, line_buffer: &[u8], ) -> Result<()> { if !out_of_range { handle.write(line_buffer)?; } Ok(()) } } pub struct InteractivePrinter<'a> { colors: Colors, config: &'a Config<'a>, decorations: Vec>, panel_width: usize, ansi_prefix_sgr: String, content_type: ContentType, pub line_changes: Option, highlighter: Option>, syntax_set: &'a SyntaxSet, } impl<'a> InteractivePrinter<'a> { pub fn new( config: &'a Config, assets: &'a HighlightingAssets, file: InputFile, reader: &mut InputFileReader, ) -> Self { let theme = assets.get_theme(&config.theme); let colors = if config.colored_output { Colors::colored(theme, config.true_color) } else { Colors::plain() }; // Create decorations. let mut decorations: Vec> = Vec::new(); if config.output_components.numbers() { decorations.push(Box::new(LineNumberDecoration::new(&colors))); } if config.output_components.changes() { decorations.push(Box::new(LineChangesDecoration::new(&colors))); } let mut panel_width: usize = decorations.len() + decorations.iter().fold(0, |a, x| a + x.width()); // The grid border decoration isn't added until after the panel_width calculation, since the // print_horizontal_line, print_header, and print_footer functions all assume the panel // width is without the grid border. if config.output_components.grid() && !decorations.is_empty() { decorations.push(Box::new(GridBorderDecoration::new(&colors))); } // Disable the panel if the terminal is too small (i.e. can't fit 5 characters with the // panel showing). if config.term_width < (decorations.len() + decorations.iter().fold(0, |a, x| a + x.width())) + 5 { decorations.clear(); panel_width = 0; } let mut line_changes = None; let highlighter = if reader.content_type.is_binary() { None } else { // Get the Git modifications line_changes = if config.output_components.changes() { match file { InputFile::Ordinary(filename) => get_git_diff(filename), _ => None, } } else { None }; // Determine the type of syntax for highlighting let syntax = assets.get_syntax(config.language, file, reader, &config.syntax_mapping); Some(HighlightLines::new(syntax, theme)) }; InteractivePrinter { panel_width, colors, config, decorations, content_type: reader.content_type, ansi_prefix_sgr: String::new(), line_changes, highlighter, syntax_set: &assets.syntax_set, } } fn print_horizontal_line(&mut self, handle: &mut Write, grid_char: char) -> Result<()> { if self.panel_width == 0 { writeln!( handle, "{}", self.colors.grid.paint("─".repeat(self.config.term_width)) )?; } else { let hline = "─".repeat(self.config.term_width - (self.panel_width + 1)); let hline = format!("{}{}{}", "─".repeat(self.panel_width), grid_char, hline); writeln!(handle, "{}", self.colors.grid.paint(hline))?; } Ok(()) } fn preprocess(&self, text: &str, cursor: &mut usize) -> String { if self.config.tab_width > 0 { expand_tabs(text, self.config.tab_width, cursor) } else { text.to_string() } } } impl<'a> Printer for InteractivePrinter<'a> { fn print_header(&mut self, handle: &mut Write, file: InputFile) -> Result<()> { if !self.config.output_components.header() { return Ok(()); } if self.config.output_components.grid() { self.print_horizontal_line(handle, '┬')?; write!( handle, "{}{}", " ".repeat(self.panel_width), self.colors .grid .paint(if self.panel_width > 0 { "│ " } else { "" }), )?; } else { write!(handle, "{}", " ".repeat(self.panel_width))?; } let (prefix, name) = match file { InputFile::Ordinary(filename) => ("File: ", filename), _ => ("", "STDIN"), }; let mode = match self.content_type { ContentType::BINARY => " ", ContentType::UTF_16LE => " ", ContentType::UTF_16BE => " ", _ => "", }; writeln!( handle, "{}{}{}", prefix, self.colors.filename.paint(name), mode )?; if self.config.output_components.grid() { if self.content_type.is_text() { self.print_horizontal_line(handle, '┼')?; } else { self.print_horizontal_line(handle, '┴')?; } } Ok(()) } fn print_footer(&mut self, handle: &mut Write) -> Result<()> { if self.config.output_components.grid() && self.content_type.is_text() { self.print_horizontal_line(handle, '┴') } else { Ok(()) } } fn print_line( &mut self, out_of_range: bool, handle: &mut Write, line_number: usize, line_buffer: &[u8], ) -> Result<()> { let mut line = match self.content_type { ContentType::BINARY => { return Ok(()); } ContentType::UTF_16LE => UTF_16LE .decode(&line_buffer, DecoderTrap::Strict) .unwrap_or("Invalid UTF-16LE".into()), ContentType::UTF_16BE => UTF_16BE .decode(&line_buffer, DecoderTrap::Strict) .unwrap_or("Invalid UTF-16BE".into()), _ => String::from_utf8_lossy(&line_buffer).to_string(), }; if self.config.show_nonprintable { line = replace_nonprintable(&mut line, self.config.tab_width); } let regions = { let highlighter = match self.highlighter { Some(ref mut highlighter) => highlighter, _ => { return Ok(()); } }; highlighter.highlight(line.as_ref(), self.syntax_set) }; if out_of_range { return Ok(()); } let mut cursor: usize = 0; let mut cursor_max: usize = self.config.term_width; let mut cursor_total: usize = 0; let mut panel_wrap: Option = None; // Line decorations. if self.panel_width > 0 { let decorations = self .decorations .iter() .map(|ref d| d.generate(line_number, false, self)) .collect::>(); for deco in decorations { write!(handle, "{} ", deco.text)?; cursor_max -= deco.width + 1; } } // Line contents. if self.config.output_wrap == OutputWrap::None { let true_color = self.config.true_color; let colored_output = self.config.colored_output; let italics = self.config.use_italic_text; for &(style, region) in regions.iter() { let text = &*self.preprocess(region, &mut cursor_total); let text_trimmed = text.trim_end_matches(|c| c == '\r' || c == '\n'); write!( handle, "{}", as_terminal_escaped(style, text_trimmed, true_color, colored_output, italics,) )?; write!(handle, "{}", &text[text_trimmed.len()..])?; } if line.bytes().next_back() != Some(b'\n') { write!(handle, "\n")?; } } else { for &(style, region) in regions.iter() { let mut ansi_iterator = AnsiCodeIterator::new(region); let mut ansi_prefix: String = String::new(); for chunk in ansi_iterator { match chunk { // ANSI escape passthrough. (text, true) => { if text.chars().last().map_or(false, |c| c == 'm') { ansi_prefix.push_str(text); if text == "\x1B[0m" { self.ansi_prefix_sgr = "\x1B[0m".to_owned(); } else { self.ansi_prefix_sgr.push_str(text); } } else { ansi_prefix.push_str(text); } } // Regular text. (text, false) => { let text = self.preprocess( text.trim_end_matches(|c| c == '\r' || c == '\n'), &mut cursor_total, ); let mut chars = text.chars(); let mut remaining = text.chars().count(); while remaining > 0 { let available = cursor_max - cursor; // It fits. if remaining <= available { let text = chars.by_ref().take(remaining).collect::(); cursor += remaining; write!( handle, "{}", as_terminal_escaped( style, &*format!( "{}{}{}", self.ansi_prefix_sgr, ansi_prefix, text ), self.config.true_color, self.config.colored_output, self.config.use_italic_text ) )?; break; } // Generate wrap padding if not already generated. if panel_wrap.is_none() { panel_wrap = if self.panel_width > 0 { Some(format!( "{} ", self.decorations .iter() .map(|ref d| d .generate(line_number, true, self) .text) .collect::>() .join(" ") )) } else { Some("".to_string()) } } // It wraps. let text = chars.by_ref().take(available).collect::(); cursor = 0; remaining -= available; write!( handle, "{}\n{}", as_terminal_escaped( style, &*format!( "{}{}{}", self.ansi_prefix_sgr, ansi_prefix, text ), self.config.true_color, self.config.colored_output, self.config.use_italic_text ), panel_wrap.clone().unwrap() )?; } // Clear the ANSI prefix buffer. ansi_prefix.clear(); } } } } write!(handle, "\n")?; } Ok(()) } } const DEFAULT_GUTTER_COLOR: u8 = 238; #[derive(Default)] pub struct Colors { pub grid: Style, pub filename: Style, pub git_added: Style, pub git_removed: Style, pub git_modified: Style, pub line_number: Style, } impl Colors { fn plain() -> Self { Colors::default() } fn colored(theme: &Theme, true_color: bool) -> Self { let gutter_color = theme .settings .gutter_foreground .map(|c| to_ansi_color(c, true_color)) .unwrap_or(Fixed(DEFAULT_GUTTER_COLOR)); Colors { grid: gutter_color.normal(), filename: Style::new().bold(), git_added: Green.normal(), git_removed: Red.normal(), git_modified: Yellow.normal(), line_number: gutter_color.normal(), } } }