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//! An example of using syntect for code analysis.
//! Basically a fancy lines of code count program that works
//! for all languages Sublime Text supports and also counts things
//! like number of functions and number of types defined.
//!
//! Another thing it does that other line count programs can't always
//! do is properly count comments in embedded syntaxes. For example
//! JS, CSS and Ruby comments embedded in ERB files.
use syntect::parsing::{SyntaxSet, ParseState, ScopeStackOp, ScopeStack};
use syntect::highlighting::{ScopeSelector, ScopeSelectors};
use syntect::easy::{ScopeRegionIterator};
use std::path::Path;
use std::io::{BufRead, BufReader};
use std::fs::File;
use walkdir::{DirEntry, WalkDir};
use std::str::FromStr;
#[derive(Debug)]
struct Selectors {
comment: ScopeSelector,
doc_comment: ScopeSelectors,
function: ScopeSelector,
types: ScopeSelectors,
}
impl Default for Selectors {
fn default() -> Selectors {
Selectors {
comment: ScopeSelector::from_str("comment - comment.block.attribute").unwrap(),
doc_comment: ScopeSelectors::from_str("comment.line.documentation, comment.block.documentation").unwrap(),
function: ScopeSelector::from_str("entity.name.function").unwrap(),
types: ScopeSelectors::from_str("entity.name.class, entity.name.struct, entity.name.enum, entity.name.type").unwrap(),
}
}
}
#[derive(Debug, Default)]
struct Stats {
selectors: Selectors,
files: usize,
functions: usize,
types: usize,
lines: usize,
chars: usize,
code_lines: usize,
comment_lines: usize,
comment_chars: usize,
comment_words: usize,
doc_comment_lines: usize,
doc_comment_words: usize,
}
fn print_stats(stats: &Stats) {
println!();
println!("################## Stats ###################");
println!("File count: {:>6}", stats.files);
println!("Total characters: {:>6}", stats.chars);
println!();
println!("Function count: {:>6}", stats.functions);
println!("Type count (structs, enums, classes): {:>6}", stats.types);
println!();
println!("Code lines (traditional SLOC): {:>6}", stats.code_lines);
println!("Total lines (w/ comments & blanks): {:>6}", stats.lines);
println!("Comment lines (comment but no code): {:>6}", stats.comment_lines);
println!("Blank lines (lines-blank-comment): {:>6}", stats.lines-stats.code_lines-stats.comment_lines);
println!();
println!("Lines with a documentation comment: {:>6}", stats.doc_comment_lines);
println!("Total words written in doc comments: {:>6}", stats.doc_comment_words);
println!("Total words written in all comments: {:>6}", stats.comment_words);
println!("Characters of comment: {:>6}", stats.comment_chars);
}
fn is_ignored(entry: &DirEntry) -> bool {
entry.file_name()
.to_str()
.map(|s| s.starts_with('.') && s.len() > 1 || s.ends_with(".md"))
.unwrap_or(false)
}
fn count_line(ops: &[(usize, ScopeStackOp)], line: &str, stack: &mut ScopeStack, stats: &mut Stats) {
stats.lines += 1;
let mut line_has_comment = false;
let mut line_has_doc_comment = false;
let mut line_has_code = false;
for (s, op) in ScopeRegionIterator::new(ops, line) {
stack.apply(op).unwrap();
if s.is_empty() { // in this case we don't care about blank tokens
continue;
}
if stats.selectors.comment.does_match(stack.as_slice()).is_some() {
let words = s.split_whitespace().filter(|w| w.chars().all(|c| c.is_alphanumeric() || c == '.' || c == '\'')).count();
if stats.selectors.doc_comment.does_match(stack.as_slice()).is_some() {
line_has_doc_comment = true;
stats.doc_comment_words += words;
}
stats.comment_chars += s.len();
stats.comment_words += words;
line_has_comment = true;
} else if !s.chars().all(|c| c.is_whitespace()) {
line_has_code = true;
}
if stats.selectors.function.does_match(stack.as_slice()).is_some() {
stats.functions += 1;
}
if stats.selectors.types.does_match(stack.as_slice()).is_some() {
stats.types += 1;
}
}
if line_has_comment && !line_has_code {
stats.comment_lines += 1;
}
if line_has_doc_comment {
stats.doc_comment_lines += 1;
}
if line_has_code {
stats.code_lines += 1;
}
}
fn count(ss: &SyntaxSet, path: &Path, stats: &mut Stats) {
let syntax = match ss.find_syntax_for_file(path).unwrap_or(None) {
Some(syntax) => syntax,
None => return
};
stats.files += 1;
let mut state = ParseState::new(syntax);
let f = File::open(path).unwrap();
let mut reader = BufReader::new(f);
let mut line = String::new();
let mut stack = ScopeStack::new();
while reader.read_line(&mut line).unwrap() > 0 {
{
let ops = state.parse_line(&line, ss).unwrap();
stats.chars += line.len();
count_line(&ops, &line, &mut stack, stats);
}
line.clear();
}
}
fn main() {
let ss = SyntaxSet::load_defaults_newlines(); // note we load the version with newlines
let args: Vec<String> = std::env::args().collect();
let path = if args.len() < 2 {
"."
} else {
&args[1]
};
println!("################## Files ###################");
let mut stats = Stats::default();
let walker = WalkDir::new(path).into_iter();
for entry in walker.filter_entry(|e| !is_ignored(e)) {
let entry = entry.unwrap();
if entry.file_type().is_file() {
println!("{}", entry.path().display());
count(&ss, entry.path(), &mut stats);
}
}
// println!("{:?}", stats);
print_stats(&stats);
}
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