// Copyright 2013 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::Default` 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::local_data; use std::io; use syntax::ast; use syntax::ast_util; use clean; use html::render; use html::render::{cache_key, current_location_key}; /// Helper to render an optional visibility with a space after it (if the /// visibility is preset) pub struct VisSpace(Option); /// Similarly to VisSpace, this structure is used to render a purity with a /// space after it. pub struct PuritySpace(ast::purity); /// Wrapper struct for properly emitting a method declaration. pub struct Method<'self>(&'self clean::SelfTy, &'self clean::FnDecl); impl fmt::Default for clean::Generics { fn fmt(g: &clean::Generics, f: &mut fmt::Formatter) { if g.lifetimes.len() == 0 && g.type_params.len() == 0 { return } f.buf.write("<".as_bytes()); for (i, life) in g.lifetimes.iter().enumerate() { if i > 0 { f.buf.write(", ".as_bytes()); } write!(f.buf, "{}", *life); } if g.type_params.len() > 0 { if g.lifetimes.len() > 0 { f.buf.write(", ".as_bytes()); } for (i, tp) in g.type_params.iter().enumerate() { if i > 0 { f.buf.write(", ".as_bytes()) } f.buf.write(tp.name.as_bytes()); if tp.bounds.len() > 0 { f.buf.write(": ".as_bytes()); for (i, bound) in tp.bounds.iter().enumerate() { if i > 0 { f.buf.write(" + ".as_bytes()); } write!(f.buf, "{}", *bound); } } } } f.buf.write(">".as_bytes()); } } impl fmt::Default for clean::Lifetime { fn fmt(l: &clean::Lifetime, f: &mut fmt::Formatter) { f.buf.write("'".as_bytes()); f.buf.write(l.as_bytes()); } } impl fmt::Default for clean::TyParamBound { fn fmt(bound: &clean::TyParamBound, f: &mut fmt::Formatter) { match *bound { clean::RegionBound => { f.buf.write("'static".as_bytes()) } clean::TraitBound(ref ty) => { write!(f.buf, "{}", *ty); } } } } impl fmt::Default for clean::Path { fn fmt(path: &clean::Path, f: &mut fmt::Formatter) { if path.global { f.buf.write("::".as_bytes()) } for (i, seg) in path.segments.iter().enumerate() { if i > 0 { f.buf.write("::".as_bytes()) } f.buf.write(seg.name.as_bytes()); if seg.lifetimes.len() > 0 || seg.types.len() > 0 { f.buf.write("<".as_bytes()); let mut comma = false; for lifetime in seg.lifetimes.iter() { if comma { f.buf.write(", ".as_bytes()); } comma = true; write!(f.buf, "{}", *lifetime); } for ty in seg.types.iter() { if comma { f.buf.write(", ".as_bytes()); } comma = true; write!(f.buf, "{}", *ty); } f.buf.write(">".as_bytes()); } } } } /// 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 io::Writer, id: ast::NodeId, p: &clean::Path, print_all: bool) { path(w, p, print_all, |_cache, loc| { Some("../".repeat(loc.len())) }, |cache| { match cache.paths.find(&id) { None => None, Some(&(ref fqp, shortty)) => Some((fqp.clone(), shortty)) } }); } /// Used when rendering an `ExternalPath` structure. Like `resolved_path` this /// will invoke `path` with proper linking-style arguments. fn external_path(w: &mut io::Writer, p: &clean::Path, print_all: bool, fqn: &[~str], kind: clean::TypeKind, crate: ast::CrateNum) { path(w, p, print_all, |cache, loc| { match *cache.extern_locations.get(&crate) { render::Remote(ref s) => Some(s.clone()), render::Local => Some("../".repeat(loc.len())), render::Unknown => None, } }, |_cache| { Some((fqn.to_owned(), match kind { clean::TypeStruct => "struct", clean::TypeEnum => "enum", clean::TypeFunction => "fn", clean::TypeTrait => "trait", })) }) } fn path(w: &mut io::Writer, path: &clean::Path, print_all: bool, root: |&render::Cache, &[~str]| -> Option<~str>, info: |&render::Cache| -> Option<(~[~str], &'static str)>) { // The generics will get written to both the title and link let mut generics = ~""; let last = path.segments.last(); if last.lifetimes.len() > 0 || last.types.len() > 0 { let mut counter = 0; generics.push_str("<"); for lifetime in last.lifetimes.iter() { if counter > 0 { generics.push_str(", "); } counter += 1; generics.push_str(format!("{}", *lifetime)); } for ty in last.types.iter() { if counter > 0 { generics.push_str(", "); } counter += 1; generics.push_str(format!("{}", *ty)); } generics.push_str(">"); } // Did someone say rightward-drift? local_data::get(current_location_key, |loc| { let loc = loc.unwrap(); local_data::get(cache_key, |cache| { cache.unwrap().read(|cache| { let abs_root = root(cache, loc.as_slice()); let rel_root = match path.segments[0].name.as_slice() { "self" => Some(~"./"), _ => None, }; if print_all { let amt = path.segments.len() - 1; match rel_root { Some(root) => { let mut root = root; for seg in path.segments.slice_to(amt).iter() { if "super" == seg.name || "self" == seg.name { write!(w, "{}::", seg.name); } else { root.push_str(seg.name); root.push_str("/"); write!(w, "{}::", root, seg.name); } } } None => { for seg in path.segments.slice_to(amt).iter() { write!(w, "{}::", seg.name); } } } } match info(cache) { // This is a documented path, link to it! Some((ref fqp, shortty)) if abs_root.is_some() => { let mut url = abs_root.unwrap(); let to_link = fqp.slice_to(fqp.len() - 1); for component in to_link.iter() { url.push_str(*component); url.push_str("/"); } match shortty { "mod" => { url.push_str(*fqp.last()); url.push_str("/index.html"); } _ => { url.push_str(shortty); url.push_str("."); url.push_str(*fqp.last()); url.push_str(".html"); } } write!(w, "{}", shortty, url, fqp.connect("::"), last.name); } _ => { write!(w, "{}", last.name); } } write!(w, "{}", generics); }) }) }) } /// Helper to render type parameters fn typarams(w: &mut io::Writer, typarams: &Option<~[clean::TyParamBound]>) { match *typarams { Some(ref params) => { write!(w, "<"); for (i, param) in params.iter().enumerate() { if i > 0 { write!(w, ", "); } write!(w, "{}", *param); } write!(w, ">"); } None => {} } } impl fmt::Default for clean::Type { fn fmt(g: &clean::Type, f: &mut fmt::Formatter) { match *g { clean::TyParamBinder(id) | clean::Generic(id) => { local_data::get(cache_key, |cache| { cache.unwrap().read(|m| { f.buf.write(m.typarams.get(&id).as_bytes()); }) }) } clean::ResolvedPath{id, typarams: ref tp, path: ref path} => { resolved_path(f.buf, id, path, false); typarams(f.buf, tp); } clean::ExternalPath{path: ref path, typarams: ref tp, fqn: ref fqn, kind, crate} => { external_path(f.buf, path, false, fqn.as_slice(), kind, crate); typarams(f.buf, tp); } clean::Self(*) => f.buf.write("Self".as_bytes()), clean::Primitive(prim) => { let s = match prim { ast::ty_int(ast::ty_i) => "int", ast::ty_int(ast::ty_i8) => "i8", ast::ty_int(ast::ty_i16) => "i16", ast::ty_int(ast::ty_i32) => "i32", ast::ty_int(ast::ty_i64) => "i64", ast::ty_uint(ast::ty_u) => "uint", ast::ty_uint(ast::ty_u8) => "u8", ast::ty_uint(ast::ty_u16) => "u16", ast::ty_uint(ast::ty_u32) => "u32", ast::ty_uint(ast::ty_u64) => "u64", ast::ty_float(ast::ty_f32) => "f32", ast::ty_float(ast::ty_f64) => "f64", ast::ty_str => "str", ast::ty_bool => "bool", ast::ty_char => "char", }; f.buf.write(s.as_bytes()); } clean::Closure(ref decl) => { let region = match decl.region { Some(ref region) => format!("{} ", *region), None => ~"", }; write!(f.buf, "{}{}{arrow, select, yes{ -> {ret}} other{}}", PuritySpace(decl.purity), match decl.sigil { ast::OwnedSigil => format!("proc({})", decl.decl.inputs), ast::BorrowedSigil => format!("{}|{}|", region, decl.decl.inputs), ast::ManagedSigil => format!("@{}fn({})", region, decl.decl.inputs), }, arrow = match decl.decl.output { clean::Unit => "no", _ => "yes" }, ret = decl.decl.output); // XXX: where are bounds and lifetimes printed?! } clean::BareFunction(ref decl) => { write!(f.buf, "{}{}fn{}{}", PuritySpace(decl.purity), match decl.abi { ~"" | ~"\"Rust\"" => ~"", ref s => " " + *s + " ", }, decl.generics, decl.decl); } clean::Tuple(ref typs) => { f.buf.write("(".as_bytes()); for (i, typ) in typs.iter().enumerate() { if i > 0 { f.buf.write(", ".as_bytes()) } write!(f.buf, "{}", *typ); } f.buf.write(")".as_bytes()); } clean::Vector(ref t) => write!(f.buf, "[{}]", **t), clean::FixedVector(ref t, ref s) => { write!(f.buf, "[{}, ..{}]", **t, *s); } clean::String => f.buf.write("str".as_bytes()), clean::Bool => f.buf.write("bool".as_bytes()), clean::Unit => f.buf.write("()".as_bytes()), clean::Bottom => f.buf.write("!".as_bytes()), clean::Unique(ref t) => write!(f.buf, "~{}", **t), clean::Managed(m, ref t) => { write!(f.buf, "@{}{}", match m { clean::Mutable => "mut ", clean::Immutable => "", }, **t) } clean::RawPointer(m, ref t) => { write!(f.buf, "*{}{}", match m { clean::Mutable => "mut ", clean::Immutable => "", }, **t) } clean::BorrowedRef{ lifetime: ref l, mutability, type_: ref ty} => { let lt = match *l { Some(ref l) => format!("{} ", *l), _ => ~"" }; write!(f.buf, "&{}{}{}", lt, match mutability { clean::Mutable => "mut ", clean::Immutable => "", }, **ty); } } } } impl fmt::Default for clean::FnDecl { fn fmt(d: &clean::FnDecl, f: &mut fmt::Formatter) { write!(f.buf, "({args}){arrow, select, yes{ -> {ret}} other{}}", args = d.inputs, arrow = match d.output { clean::Unit => "no", _ => "yes" }, ret = d.output); } } impl fmt::Default for ~[clean::Argument] { fn fmt(inputs: &~[clean::Argument], f: &mut fmt::Formatter) { let mut args = ~""; for (i, input) in inputs.iter().enumerate() { if i > 0 { args.push_str(", "); } if input.name.len() > 0 { args.push_str(format!("{}: ", input.name)); } args.push_str(format!("{}", input.type_)); } f.buf.write(args.as_bytes()); } } impl<'self> fmt::Default for Method<'self> { fn fmt(m: &Method<'self>, f: &mut fmt::Formatter) { let Method(selfty, d) = *m; let mut args = ~""; match *selfty { clean::SelfStatic => {}, clean::SelfValue => args.push_str("self"), clean::SelfOwned => args.push_str("~self"), clean::SelfManaged(clean::Mutable) => args.push_str("@mut self"), clean::SelfManaged(clean::Immutable) => args.push_str("@self"), clean::SelfBorrowed(Some(ref lt), clean::Immutable) => { args.push_str(format!("&{} self", *lt)); } clean::SelfBorrowed(Some(ref lt), clean::Mutable) => { args.push_str(format!("&{} mut self", *lt)); } clean::SelfBorrowed(None, clean::Mutable) => { args.push_str("&mut self"); } clean::SelfBorrowed(None, clean::Immutable) => { args.push_str("&self"); } } for (i, input) in d.inputs.iter().enumerate() { if i > 0 || args.len() > 0 { args.push_str(", "); } if input.name.len() > 0 { args.push_str(format!("{}: ", input.name)); } args.push_str(format!("{}", input.type_)); } write!(f.buf, "({args}){arrow, select, yes{ -> {ret}} other{}}", args = args, arrow = match d.output { clean::Unit => "no", _ => "yes" }, ret = d.output); } } impl fmt::Default for VisSpace { fn fmt(v: &VisSpace, f: &mut fmt::Formatter) { match **v { Some(ast::public) => { write!(f.buf, "pub "); } Some(ast::private) => { write!(f.buf, "priv "); } Some(ast::inherited) | None => {} } } } impl fmt::Default for PuritySpace { fn fmt(p: &PuritySpace, f: &mut fmt::Formatter) { match **p { ast::unsafe_fn => write!(f.buf, "unsafe "), ast::extern_fn => write!(f.buf, "extern "), ast::impure_fn => {} } } } impl fmt::Default for clean::ViewPath { fn fmt(v: &clean::ViewPath, f: &mut fmt::Formatter) { match *v { clean::SimpleImport(ref name, ref src) => { if *name == src.path.segments.last().name { write!(f.buf, "use {};", *src); } else { write!(f.buf, "use {} = {};", *name, *src); } } clean::GlobImport(ref src) => { write!(f.buf, "use {}::*;", *src); } clean::ImportList(ref src, ref names) => { write!(f.buf, "use {}::\\{", *src); for (i, n) in names.iter().enumerate() { if i > 0 { write!(f.buf, ", "); } write!(f.buf, "{}", *n); } write!(f.buf, "\\};"); } } } } impl fmt::Default for clean::ImportSource { fn fmt(v: &clean::ImportSource, f: &mut fmt::Formatter) { match v.did { // XXX: shouldn't be restricted to just local imports Some(did) if ast_util::is_local(did) => { resolved_path(f.buf, did.node, &v.path, true); } _ => { for (i, seg) in v.path.segments.iter().enumerate() { if i > 0 { write!(f.buf, "::") } write!(f.buf, "{}", seg.name); } } } } } impl fmt::Default for clean::ViewListIdent { fn fmt(v: &clean::ViewListIdent, f: &mut fmt::Formatter) { match v.source { // XXX: shouldn't be limited to just local imports Some(did) if ast_util::is_local(did) => { let path = clean::Path { global: false, segments: ~[clean::PathSegment { name: v.name.clone(), lifetimes: ~[], types: ~[], }] }; resolved_path(f.buf, did.node, &path, false); } _ => write!(f.buf, "{}", v.name), } } }