//! Calculates information used for the --show-coverage flag. use crate::clean; use crate::core::DocContext; use crate::html::markdown::{find_testable_code, ErrorCodes}; use crate::passes::check_doc_test_visibility::{should_have_doc_example, Tests}; use crate::passes::Pass; use crate::visit::DocVisitor; use rustc_hir as hir; use rustc_lint::builtin::MISSING_DOCS; use rustc_middle::lint::LintLevelSource; use rustc_middle::ty::DefIdTree; use rustc_session::lint; use rustc_span::FileName; use serde::Serialize; use std::collections::BTreeMap; use std::ops; pub(crate) const CALCULATE_DOC_COVERAGE: Pass = Pass { name: "calculate-doc-coverage", run: calculate_doc_coverage, description: "counts the number of items with and without documentation", }; fn calculate_doc_coverage(krate: clean::Crate, ctx: &mut DocContext<'_>) -> clean::Crate { let mut calc = CoverageCalculator { items: Default::default(), ctx }; calc.visit_crate(&krate); calc.print_results(); krate } #[derive(Default, Copy, Clone, Serialize, Debug)] struct ItemCount { total: u64, with_docs: u64, total_examples: u64, with_examples: u64, } impl ItemCount { fn count_item( &mut self, has_docs: bool, has_doc_example: bool, should_have_doc_examples: bool, should_have_docs: bool, ) { if has_docs || should_have_docs { self.total += 1; } if has_docs { self.with_docs += 1; } if should_have_doc_examples || has_doc_example { self.total_examples += 1; } if has_doc_example { self.with_examples += 1; } } fn percentage(&self) -> Option { if self.total > 0 { Some((self.with_docs as f64 * 100.0) / self.total as f64) } else { None } } fn examples_percentage(&self) -> Option { if self.total_examples > 0 { Some((self.with_examples as f64 * 100.0) / self.total_examples as f64) } else { None } } } impl ops::Sub for ItemCount { type Output = Self; fn sub(self, rhs: Self) -> Self { ItemCount { total: self.total - rhs.total, with_docs: self.with_docs - rhs.with_docs, total_examples: self.total_examples - rhs.total_examples, with_examples: self.with_examples - rhs.with_examples, } } } impl ops::AddAssign for ItemCount { fn add_assign(&mut self, rhs: Self) { self.total += rhs.total; self.with_docs += rhs.with_docs; self.total_examples += rhs.total_examples; self.with_examples += rhs.with_examples; } } struct CoverageCalculator<'a, 'b> { items: BTreeMap, ctx: &'a mut DocContext<'b>, } fn limit_filename_len(filename: String) -> String { let nb_chars = filename.chars().count(); if nb_chars > 35 { "...".to_string() + &filename[filename.char_indices().nth(nb_chars - 32).map(|x| x.0).unwrap_or(0)..] } else { filename } } impl<'a, 'b> CoverageCalculator<'a, 'b> { fn to_json(&self) -> String { serde_json::to_string( &self .items .iter() .map(|(k, v)| (k.prefer_local().to_string(), v)) .collect::>(), ) .expect("failed to convert JSON data to string") } fn print_results(&self) { let output_format = self.ctx.output_format; if output_format.is_json() { println!("{}", self.to_json()); return; } let mut total = ItemCount::default(); fn print_table_line() { println!("+-{0:->35}-+-{0:->10}-+-{0:->10}-+-{0:->10}-+-{0:->10}-+", ""); } fn print_table_record( name: &str, count: ItemCount, percentage: f64, examples_percentage: f64, ) { println!( "| {:<35} | {:>10} | {:>9.1}% | {:>10} | {:>9.1}% |", name, count.with_docs, percentage, count.with_examples, examples_percentage, ); } print_table_line(); println!( "| {:<35} | {:>10} | {:>10} | {:>10} | {:>10} |", "File", "Documented", "Percentage", "Examples", "Percentage", ); print_table_line(); for (file, &count) in &self.items { if let Some(percentage) = count.percentage() { print_table_record( &limit_filename_len(file.prefer_local().to_string_lossy().into()), count, percentage, count.examples_percentage().unwrap_or(0.), ); total += count; } } print_table_line(); print_table_record( "Total", total, total.percentage().unwrap_or(0.0), total.examples_percentage().unwrap_or(0.0), ); print_table_line(); } } impl<'a, 'b> DocVisitor for CoverageCalculator<'a, 'b> { fn visit_item(&mut self, i: &clean::Item) { if !i.item_id.is_local() { // non-local items are skipped because they can be out of the users control, // especially in the case of trait impls, which rustdoc eagerly inlines return; } match *i.kind { clean::StrippedItem(..) => { // don't count items in stripped modules return; } // docs on `use` and `extern crate` statements are not displayed, so they're not // worth counting clean::ImportItem(..) | clean::ExternCrateItem { .. } => {} // Don't count trait impls, the missing-docs lint doesn't so we shouldn't either. // Inherent impls *can* be documented, and those docs show up, but in most cases it // doesn't make sense, as all methods on a type are in one single impl block clean::ImplItem(_) => {} _ => { let has_docs = !i.attrs.doc_strings.is_empty(); let mut tests = Tests { found_tests: 0 }; find_testable_code( &i.attrs.collapsed_doc_value().unwrap_or_default(), &mut tests, ErrorCodes::No, false, None, ); let has_doc_example = tests.found_tests != 0; let hir_id = DocContext::as_local_hir_id(self.ctx.tcx, i.item_id).unwrap(); let (level, source) = self.ctx.tcx.lint_level_at_node(MISSING_DOCS, hir_id); // In case we have: // // ``` // enum Foo { Bar(u32) } // // or: // struct Bar(u32); // ``` // // there is no need to require documentation on the fields of tuple variants and // tuple structs. let should_be_ignored = i .item_id .as_def_id() .and_then(|def_id| self.ctx.tcx.opt_parent(def_id)) .and_then(|def_id| self.ctx.tcx.hir().get_if_local(def_id)) .map(|node| { matches!( node, hir::Node::Variant(hir::Variant { data: hir::VariantData::Tuple(_, _, _), .. }) | hir::Node::Item(hir::Item { kind: hir::ItemKind::Struct(hir::VariantData::Tuple(_, _, _), _), .. }) ) }) .unwrap_or(false); // `missing_docs` is allow-by-default, so don't treat this as ignoring the item // unless the user had an explicit `allow`. // let should_have_docs = !should_be_ignored && (level != lint::Level::Allow || matches!(source, LintLevelSource::Default)); if let Some(span) = i.span(self.ctx.tcx) { let filename = span.filename(self.ctx.sess()); debug!("counting {:?} {:?} in {:?}", i.type_(), i.name, filename); self.items.entry(filename).or_default().count_item( has_docs, has_doc_example, should_have_doc_example(self.ctx, i), should_have_docs, ); } } } self.visit_item_recur(i) } }