// Copyright 2013-2014 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! HTML formatting module //! //! This module contains a large number of `fmt::Display` implementations for //! various types in `rustdoc::clean`. These implementations all currently //! assume that HTML output is desired, although it may be possible to redesign //! them in the future to instead emit any format desired. use std::fmt; use std::iter::repeat; use syntax::abi::Abi; use syntax::ast; use syntax::ast_util; use clean; use html::item_type::ItemType; use html::render; use html::render::{cache, CURRENT_LOCATION_KEY}; /// Helper to render an optional visibility with a space after it (if the /// visibility is preset) #[derive(Copy, Clone)] pub struct VisSpace(pub Option); /// Similarly to VisSpace, this structure is used to render a function style with a /// space after it. #[derive(Copy, Clone)] pub struct UnsafetySpace(pub ast::Unsafety); /// Wrapper struct for properly emitting a method declaration. pub struct Method<'a>(pub &'a clean::SelfTy, pub &'a clean::FnDecl); /// Similar to VisSpace, but used for mutability #[derive(Copy, Clone)] pub struct MutableSpace(pub clean::Mutability); /// Similar to VisSpace, but used for mutability #[derive(Copy, Clone)] pub struct RawMutableSpace(pub clean::Mutability); /// Wrapper struct for emitting a where clause from Generics. pub struct WhereClause<'a>(pub &'a clean::Generics); /// Wrapper struct for emitting type parameter bounds. pub struct TyParamBounds<'a>(pub &'a [clean::TyParamBound]); /// Wrapper struct for emitting a comma-separated list of items pub struct CommaSep<'a, T: 'a>(pub &'a [T]); pub struct AbiSpace(pub Abi); impl VisSpace { pub fn get(&self) -> Option { let VisSpace(v) = *self; v } } impl UnsafetySpace { pub fn get(&self) -> ast::Unsafety { let UnsafetySpace(v) = *self; v } } impl<'a, T: fmt::Display> fmt::Display for CommaSep<'a, T> { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { for (i, item) in self.0.iter().enumerate() { if i != 0 { try!(write!(f, ", ")); } try!(write!(f, "{}", item)); } Ok(()) } } impl<'a> fmt::Display for TyParamBounds<'a> { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let &TyParamBounds(bounds) = self; for (i, bound) in bounds.iter().enumerate() { if i > 0 { try!(f.write_str(" + ")); } try!(write!(f, "{}", *bound)); } Ok(()) } } impl fmt::Display for clean::Generics { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { if self.lifetimes.is_empty() && self.type_params.is_empty() { return Ok(()) } try!(f.write_str("<")); for (i, life) in self.lifetimes.iter().enumerate() { if i > 0 { try!(f.write_str(", ")); } try!(write!(f, "{}", *life)); } if !self.type_params.is_empty() { if !self.lifetimes.is_empty() { try!(f.write_str(", ")); } for (i, tp) in self.type_params.iter().enumerate() { if i > 0 { try!(f.write_str(", ")) } try!(f.write_str(&tp.name)); if !tp.bounds.is_empty() { try!(write!(f, ": {}", TyParamBounds(&tp.bounds))); } match tp.default { Some(ref ty) => { try!(write!(f, " = {}", ty)); }, None => {} }; } } try!(f.write_str(">")); Ok(()) } } impl<'a> fmt::Display for WhereClause<'a> { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let &WhereClause(gens) = self; if gens.where_predicates.is_empty() { return Ok(()); } try!(f.write_str(" where ")); for (i, pred) in gens.where_predicates.iter().enumerate() { if i > 0 { try!(f.write_str(", ")); } match pred { &clean::WherePredicate::BoundPredicate { ref ty, ref bounds } => { let bounds = bounds; try!(write!(f, "{}: {}", ty, TyParamBounds(bounds))); } &clean::WherePredicate::RegionPredicate { ref lifetime, ref bounds } => { try!(write!(f, "{}: ", lifetime)); for (i, lifetime) in bounds.iter().enumerate() { if i > 0 { try!(f.write_str(" + ")); } try!(write!(f, "{}", lifetime)); } } &clean::WherePredicate::EqPredicate { ref lhs, ref rhs } => { try!(write!(f, "{} == {}", lhs, rhs)); } } } try!(f.write_str("")); Ok(()) } } impl fmt::Display for clean::Lifetime { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { try!(f.write_str(self.get_ref())); Ok(()) } } impl fmt::Display for clean::PolyTrait { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { if !self.lifetimes.is_empty() { try!(f.write_str("for<")); for (i, lt) in self.lifetimes.iter().enumerate() { if i > 0 { try!(f.write_str(", ")); } try!(write!(f, "{}", lt)); } try!(f.write_str("> ")); } write!(f, "{}", self.trait_) } } impl fmt::Display for clean::TyParamBound { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match *self { clean::RegionBound(ref lt) => { write!(f, "{}", *lt) } clean::TraitBound(ref ty, modifier) => { let modifier_str = match modifier { ast::TraitBoundModifier::None => "", ast::TraitBoundModifier::Maybe => "?", }; write!(f, "{}{}", modifier_str, *ty) } } } } impl fmt::Display for clean::PathParameters { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match *self { clean::PathParameters::AngleBracketed { ref lifetimes, ref types, ref bindings } => { if !lifetimes.is_empty() || !types.is_empty() || !bindings.is_empty() { try!(f.write_str("<")); let mut comma = false; for lifetime in lifetimes { if comma { try!(f.write_str(", ")); } comma = true; try!(write!(f, "{}", *lifetime)); } for ty in types { if comma { try!(f.write_str(", ")); } comma = true; try!(write!(f, "{}", *ty)); } for binding in bindings { if comma { try!(f.write_str(", ")); } comma = true; try!(write!(f, "{}", *binding)); } try!(f.write_str(">")); } } clean::PathParameters::Parenthesized { ref inputs, ref output } => { try!(f.write_str("(")); let mut comma = false; for ty in inputs { if comma { try!(f.write_str(", ")); } comma = true; try!(write!(f, "{}", *ty)); } try!(f.write_str(")")); if let Some(ref ty) = *output { try!(f.write_str(" -> ")); try!(write!(f, "{}", ty)); } } } Ok(()) } } impl fmt::Display for clean::PathSegment { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { try!(f.write_str(&self.name)); write!(f, "{}", self.params) } } impl fmt::Display for clean::Path { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { if self.global { try!(f.write_str("::")) } for (i, seg) in self.segments.iter().enumerate() { if i > 0 { try!(f.write_str("::")) } try!(write!(f, "{}", seg)); } Ok(()) } } pub fn href(did: ast::DefId) -> Option<(String, ItemType, Vec)> { let cache = cache(); let loc = CURRENT_LOCATION_KEY.with(|l| l.borrow().clone()); let &(ref fqp, shortty) = match cache.paths.get(&did) { Some(p) => p, None => return None, }; let mut url = if ast_util::is_local(did) || cache.inlined.contains(&did) { repeat("../").take(loc.len()).collect::() } else { match cache.extern_locations[&did.krate] { (_, render::Remote(ref s)) => s.to_string(), (_, render::Local) => repeat("../").take(loc.len()).collect(), (_, render::Unknown) => return None, } }; for component in &fqp[..fqp.len() - 1] { url.push_str(component); url.push_str("/"); } match shortty { ItemType::Module => { url.push_str(fqp.last().unwrap()); url.push_str("/index.html"); } _ => { url.push_str(shortty.to_static_str()); url.push_str("."); url.push_str(fqp.last().unwrap()); url.push_str(".html"); } } Some((url, shortty, fqp.to_vec())) } /// Used when rendering a `ResolvedPath` structure. This invokes the `path` /// rendering function with the necessary arguments for linking to a local path. fn resolved_path(w: &mut fmt::Formatter, did: ast::DefId, path: &clean::Path, print_all: bool) -> fmt::Result { let last = path.segments.last().unwrap(); let rel_root = match &*path.segments[0].name { "self" => Some("./".to_string()), _ => None, }; if print_all { let amt = path.segments.len() - 1; match rel_root { Some(root) => { let mut root = String::from_str(&root); for seg in &path.segments[..amt] { if "super" == seg.name || "self" == seg.name { try!(write!(w, "{}::", seg.name)); } else { root.push_str(&seg.name); root.push_str("/"); try!(write!(w, "{}::", root, seg.name)); } } } None => { for seg in &path.segments[..amt] { try!(write!(w, "{}::", seg.name)); } } } } match href(did) { Some((url, shortty, fqp)) => { try!(write!(w, "{}", shortty, url, fqp.connect("::"), last.name)); } _ => try!(write!(w, "{}", last.name)), } try!(write!(w, "{}", last.params)); Ok(()) } fn primitive_link(f: &mut fmt::Formatter, prim: clean::PrimitiveType, name: &str) -> fmt::Result { let m = cache(); let mut needs_termination = false; match m.primitive_locations.get(&prim) { Some(&ast::LOCAL_CRATE) => { let len = CURRENT_LOCATION_KEY.with(|s| s.borrow().len()); let len = if len == 0 {0} else {len - 1}; try!(write!(f, "", repeat("../").take(len).collect::(), prim.to_url_str())); needs_termination = true; } Some(&cnum) => { let path = &m.paths[&ast::DefId { krate: cnum, node: ast::CRATE_NODE_ID, }]; let loc = match m.extern_locations[&cnum] { (_, render::Remote(ref s)) => Some(s.to_string()), (_, render::Local) => { let len = CURRENT_LOCATION_KEY.with(|s| s.borrow().len()); Some(repeat("../").take(len).collect::()) } (_, render::Unknown) => None, }; match loc { Some(root) => { try!(write!(f, "", root, path.0.first().unwrap(), prim.to_url_str())); needs_termination = true; } None => {} } } None => {} } try!(write!(f, "{}", name)); if needs_termination { try!(write!(f, "")); } Ok(()) } /// Helper to render type parameters fn tybounds(w: &mut fmt::Formatter, typarams: &Option >) -> fmt::Result { match *typarams { Some(ref params) => { for param in params { try!(write!(w, " + ")); try!(write!(w, "{}", *param)); } Ok(()) } None => Ok(()) } } impl fmt::Display for clean::Type { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match *self { clean::Generic(ref name) => { f.write_str(name) } clean::ResolvedPath{ did, ref typarams, ref path } => { // Paths like Self::Output should be rendered with all segments try!(resolved_path(f, did, path, path.segments[0].name == "Self")); tybounds(f, typarams) } clean::Infer => write!(f, "_"), clean::Primitive(prim) => primitive_link(f, prim, prim.to_string()), clean::BareFunction(ref decl) => { write!(f, "{}{}fn{}{}", UnsafetySpace(decl.unsafety), match &*decl.abi { "" => " extern ".to_string(), "\"Rust\"" => "".to_string(), s => format!(" extern {} ", s) }, decl.generics, decl.decl) } clean::Tuple(ref typs) => { primitive_link(f, clean::PrimitiveTuple, &*match &**typs { [ref one] => format!("({},)", one), many => format!("({})", CommaSep(&many)), }) } clean::Vector(ref t) => { primitive_link(f, clean::Slice, &format!("[{}]", **t)) } clean::FixedVector(ref t, ref s) => { primitive_link(f, clean::PrimitiveType::Array, &format!("[{}; {}]", **t, *s)) } clean::Bottom => f.write_str("!"), clean::RawPointer(m, ref t) => { primitive_link(f, clean::PrimitiveType::PrimitiveRawPointer, &format!("*{}{}", RawMutableSpace(m), **t)) } clean::BorrowedRef{ lifetime: ref l, mutability, type_: ref ty} => { let lt = match *l { Some(ref l) => format!("{} ", *l), _ => "".to_string(), }; let m = MutableSpace(mutability); match **ty { clean::Vector(ref bt) => { // BorrowedRef{ ... Vector(T) } is &[T] match **bt { clean::Generic(_) => primitive_link(f, clean::Slice, &format!("&{}{}[{}]", lt, m, **bt)), _ => { try!(primitive_link(f, clean::Slice, &format!("&{}{}[", lt, m))); try!(write!(f, "{}", **bt)); primitive_link(f, clean::Slice, "]") } } } _ => { write!(f, "&{}{}{}", lt, m, **ty) } } } clean::PolyTraitRef(ref bounds) => { for (i, bound) in bounds.iter().enumerate() { if i != 0 { try!(write!(f, " + ")); } try!(write!(f, "{}", *bound)); } Ok(()) } // It's pretty unsightly to look at `::C` in output, and // we've got hyperlinking on our side, so try to avoid longer // notation as much as possible by making `C` a hyperlink to trait // `B` to disambiguate. // // FIXME: this is still a lossy conversion and there should probably // be a better way of representing this in general? Most of // the ugliness comes from inlining across crates where // everything comes in as a fully resolved QPath (hard to // look at). clean::QPath { ref name, ref self_type, trait_: box clean::ResolvedPath { did, ref typarams, .. }, } => { try!(write!(f, "{}::", self_type)); let path = clean::Path::singleton(name.clone()); try!(resolved_path(f, did, &path, false)); // FIXME: `typarams` are not rendered, and this seems bad? drop(typarams); Ok(()) } clean::QPath { ref name, ref self_type, ref trait_ } => { write!(f, "<{} as {}>::{}", self_type, trait_, name) } clean::Unique(..) => { panic!("should have been cleaned") } } } } impl fmt::Display for clean::Arguments { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { for (i, input) in self.values.iter().enumerate() { if i > 0 { try!(write!(f, ", ")); } if !input.name.is_empty() { try!(write!(f, "{}: ", input.name)); } try!(write!(f, "{}", input.type_)); } Ok(()) } } impl fmt::Display for clean::FunctionRetTy { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match *self { clean::Return(clean::Tuple(ref tys)) if tys.is_empty() => Ok(()), clean::Return(ref ty) => write!(f, " -> {}", ty), clean::DefaultReturn => Ok(()), clean::NoReturn => write!(f, " -> !") } } } impl fmt::Display for clean::FnDecl { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "({args}){arrow}", args = self.inputs, arrow = self.output) } } impl<'a> fmt::Display for Method<'a> { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let Method(selfty, d) = *self; let mut args = String::new(); match *selfty { clean::SelfStatic => {}, clean::SelfValue => args.push_str("self"), clean::SelfBorrowed(Some(ref lt), mtbl) => { args.push_str(&format!("&{} {}self", *lt, MutableSpace(mtbl))); } clean::SelfBorrowed(None, mtbl) => { args.push_str(&format!("&{}self", MutableSpace(mtbl))); } clean::SelfExplicit(ref typ) => { args.push_str(&format!("self: {}", *typ)); } } for (i, input) in d.inputs.values.iter().enumerate() { if i > 0 || !args.is_empty() { args.push_str(", "); } if !input.name.is_empty() { args.push_str(&format!("{}: ", input.name)); } args.push_str(&format!("{}", input.type_)); } write!(f, "({args}){arrow}", args = args, arrow = d.output) } } impl fmt::Display for VisSpace { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match self.get() { Some(ast::Public) => write!(f, "pub "), Some(ast::Inherited) | None => Ok(()) } } } impl fmt::Display for UnsafetySpace { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match self.get() { ast::Unsafety::Unsafe => write!(f, "unsafe "), ast::Unsafety::Normal => Ok(()) } } } impl fmt::Display for clean::Import { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match *self { clean::SimpleImport(ref name, ref src) => { if *name == src.path.segments.last().unwrap().name { write!(f, "use {};", *src) } else { write!(f, "use {} as {};", *src, *name) } } clean::GlobImport(ref src) => { write!(f, "use {}::*;", *src) } clean::ImportList(ref src, ref names) => { try!(write!(f, "use {}::{{", *src)); for (i, n) in names.iter().enumerate() { if i > 0 { try!(write!(f, ", ")); } try!(write!(f, "{}", *n)); } write!(f, "}};") } } } } impl fmt::Display for clean::ImportSource { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match self.did { Some(did) => resolved_path(f, did, &self.path, true), _ => { for (i, seg) in self.path.segments.iter().enumerate() { if i > 0 { try!(write!(f, "::")) } try!(write!(f, "{}", seg.name)); } Ok(()) } } } } impl fmt::Display for clean::ViewListIdent { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match self.source { Some(did) => { let path = clean::Path::singleton(self.name.clone()); resolved_path(f, did, &path, false) } _ => write!(f, "{}", self.name), } } } impl fmt::Display for clean::TypeBinding { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "{}={}", self.name, self.ty) } } impl fmt::Display for MutableSpace { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match *self { MutableSpace(clean::Immutable) => Ok(()), MutableSpace(clean::Mutable) => write!(f, "mut "), } } } impl fmt::Display for RawMutableSpace { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match *self { RawMutableSpace(clean::Immutable) => write!(f, "const "), RawMutableSpace(clean::Mutable) => write!(f, "mut "), } } } impl fmt::Display for AbiSpace { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match self.0 { Abi::Rust => Ok(()), Abi::C => write!(f, "extern "), abi => write!(f, "extern {} ", abi), } } }