#[doc = "Generate markdown from a document tree"]; import std::io; import std::io::writer_util; export mk_pass; // FIXME: This is a really convoluted interface to work around trying // to get a writer into a unique closure and then being able to test // what was written afterward fn mk_pass( give_writer: fn~(fn(io::writer)) ) -> pass { fn~( srv: astsrv::srv, doc: doc::cratedoc ) -> doc::cratedoc { fn mods_last(item1: doc::itemtag, item2: doc::itemtag) -> bool { fn is_mod(item: doc::itemtag) -> bool { alt item { doc::modtag(_) { true } _ { false } } } let lteq = !is_mod(item1) || is_mod(item2); lteq } give_writer {|writer| // Sort the items so mods come last. All mods will be // output at the same header level so sorting mods last // makes the headers come out nested correctly. let sorted_doc = sort_pass::mk_pass(mods_last)(srv, doc); write_markdown(sorted_doc, writer); } doc } } #[test] fn should_write_modules_last() { /* Because the markdown pass writes all modules at the same level of indentation (it doesn't 'nest' them), we need to make sure that we write all of the modules contained in each module after all other types of items, or else the header nesting will end up wrong, with modules appearing to contain items that they do not. */ let markdown = test::render( "mod a { }\ fn b() { }\ mod c { }\ fn d() { }" ); let idx_a = str::find(markdown, "# Module `a`"); let idx_b = str::find(markdown, "## Function `b`"); let idx_c = str::find(markdown, "# Module `c`"); let idx_d = str::find(markdown, "## Function `d`"); assert idx_b < idx_d; assert idx_d < idx_a; assert idx_a < idx_c; } type ctxt = { w: io::writer }; fn write_markdown( doc: doc::cratedoc, writer: io::writer ) { let ctxt = { w: writer }; write_crate(ctxt, doc); } enum hlvl { h1 = 1, h2 = 2, h3 = 3 } fn write_header(ctxt: ctxt, lvl: hlvl, title: str) { let hashes = str::from_chars(vec::init_elt(lvl as uint, '#')); ctxt.w.write_line(#fmt("%s %s", hashes, title)); ctxt.w.write_line(""); } fn write_crate( ctxt: ctxt, doc: doc::cratedoc ) { write_header(ctxt, h1, #fmt("Crate %s", doc.topmod.name)); write_top_module(ctxt, doc.topmod); } fn write_top_module( ctxt: ctxt, moddoc: doc::moddoc ) { write_mod_contents(ctxt, moddoc); } fn write_mod( ctxt: ctxt, moddoc: doc::moddoc ) { let fullpath = str::connect(moddoc.path + [moddoc.name], "::"); write_header(ctxt, h1, #fmt("Module `%s`", fullpath)); write_mod_contents(ctxt, moddoc); } #[test] fn should_write_full_path_to_mod() { let markdown = test::render("mod a { mod b { mod c { } } }"); assert str::contains(markdown, "# Module `a::b::c`"); } fn write_mod_contents( ctxt: ctxt, doc: doc::moddoc ) { write_brief(ctxt, doc.brief); write_desc(ctxt, doc.desc); for itemtag in *doc.items { alt itemtag { doc::modtag(moddoc) { write_mod(ctxt, moddoc) } doc::fntag(fndoc) { write_fn(ctxt, fndoc) } doc::consttag(constdoc) { write_const(ctxt, constdoc) } doc::enumtag(enumdoc) { write_enum(ctxt, enumdoc) } doc::restag(resdoc) { write_res(ctxt, resdoc) } doc::ifacetag(ifacedoc) { write_iface(ctxt, ifacedoc) } doc::impltag(impldoc) { write_impl(ctxt, impldoc) } } } } #[test] fn should_write_crate_brief_description() { let markdown = test::render("#[doc(brief = \"this is the crate\")];"); assert str::contains(markdown, "this is the crate"); } #[test] fn should_write_crate_description() { let markdown = test::render("#[doc = \"this is the crate\"];"); assert str::contains(markdown, "this is the crate"); } fn write_fn( ctxt: ctxt, doc: doc::fndoc ) { write_header(ctxt, h2, #fmt("Function `%s`", doc.name)); write_fnlike( ctxt, doc.sig, doc.brief, doc.desc, doc.args, doc.return, doc.failure ); } fn write_fnlike( ctxt: ctxt, sig: option, brief: option, desc: option, args: [doc::argdoc], return: doc::retdoc, failure: option ) { write_sig(ctxt, sig); write_brief(ctxt, brief); write_desc(ctxt, desc); write_args(ctxt, args); write_return(ctxt, return); write_failure(ctxt, failure); } fn write_sig(ctxt: ctxt, sig: option) { alt sig { some(sig) { ctxt.w.write_line(code_block_indent(sig)); ctxt.w.write_line(""); } none { fail "unimplemented" } } } fn code_block_indent(s: str) -> str { let lines = str::lines_any(s); let indented = vec::map(lines, { |line| #fmt(" %s", line) }); str::connect(indented, "\n") } #[test] fn write_markdown_should_write_function_header() { let markdown = test::render("fn func() { }"); assert str::contains(markdown, "## Function `func`"); } #[test] fn should_write_the_function_signature() { let markdown = test::render("#[doc = \"f\"] fn a() { }"); assert str::contains(markdown, "\n fn a()\n"); } #[test] fn should_insert_blank_line_after_fn_signature() { let markdown = test::render("#[doc = \"f\"] fn a() { }"); assert str::contains(markdown, "fn a()\n\n"); } #[test] fn should_correctly_indent_fn_signature() { let doc = test::create_doc("fn a() { }"); let doc = { topmod: { items: ~[doc::fntag({ sig: some("line 1\nline 2") with doc.topmod.fns()[0] })] with doc.topmod } with doc }; let markdown = test::write_markdown_str(doc); assert str::contains(markdown, " line 1\n line 2"); } #[test] fn should_leave_blank_line_between_fn_header_and_sig() { let markdown = test::render("#[doc(brief = \"brief\")] fn a() { }"); assert str::contains(markdown, "Function `a`\n\n fn a()"); } fn write_brief( ctxt: ctxt, brief: option ) { alt brief { some(brief) { ctxt.w.write_line(brief); ctxt.w.write_line(""); } none { } } } #[test] fn should_leave_blank_line_after_brief() { let markdown = test::render("#[doc(brief = \"brief\")] fn a() { }"); assert str::contains(markdown, "brief\n\n"); } #[test] fn should_leave_blank_line_between_brief_and_desc() { let markdown = test::render( "#[doc(brief = \"brief\", desc = \"desc\")] fn a() { }" ); assert str::contains(markdown, "brief\n\ndesc"); } fn write_desc( ctxt: ctxt, desc: option ) { alt desc { some(desc) { ctxt.w.write_line(desc); ctxt.w.write_line(""); } none { } } } fn write_args( ctxt: ctxt, args: [doc::argdoc] ) { if vec::is_not_empty(args) { ctxt.w.write_line("Arguments:"); ctxt.w.write_line(""); vec::iter(args) {|arg| write_arg(ctxt, arg) }; ctxt.w.write_line(""); } } fn write_arg(ctxt: ctxt, arg: doc::argdoc) { assert option::is_some(arg.ty); ctxt.w.write_str(#fmt( "* `%s`: `%s`", arg.name, option::get(arg.ty) )); alt arg.desc { some(desc) { ctxt.w.write_str(#fmt(" - %s", desc)); } none { } } ctxt.w.write_line(""); } #[test] fn should_write_argument_list() { let source = "fn a(b: int, c: int) { }"; let markdown = test::render(source); assert str::contains( markdown, "Arguments:\n\ \n\ * `b`: `int`\n\ * `c`: `int`\n\ \n" ); } #[test] fn should_not_write_arguments_if_none() { let source = "fn a() { } fn b() { }"; let markdown = test::render(source); assert !str::contains(markdown, "Arguments"); } #[test] fn should_write_argument_description() { let source = "#[doc(args(a = \"milk\"))] fn f(a: bool) { }"; let markdown = test::render(source); assert str::contains(markdown, "`a`: `bool` - milk"); } fn write_return( ctxt: ctxt, doc: doc::retdoc ) { alt doc.ty { some(ty) { ctxt.w.write_str(#fmt("Returns `%s`", ty)); alt doc.desc { some(d) { ctxt.w.write_line(#fmt(" - %s", d)); ctxt.w.write_line(""); } none { ctxt.w.write_line(""); ctxt.w.write_line(""); } } } none { } } } #[test] fn should_write_return_type_on_new_line() { let markdown = test::render("fn a() -> int { }"); assert str::contains(markdown, "\nReturns `int`"); } #[test] fn should_write_blank_line_between_return_type_and_next_header() { let markdown = test::render( "fn a() -> int { } \ fn b() -> int { }" ); assert str::contains(markdown, "Returns `int`\n\n##"); } #[test] fn should_not_write_return_type_when_there_is_none() { let markdown = test::render("fn a() { }"); assert !str::contains(markdown, "Returns"); } #[test] fn should_write_blank_line_after_return_description() { let markdown = test::render( "#[doc(return = \"blorp\")] fn a() -> int { }" ); assert str::contains(markdown, "blorp\n\n"); } #[test] fn should_write_return_description_on_same_line_as_type() { let markdown = test::render( "#[doc(return = \"blorp\")] fn a() -> int { }" ); assert str::contains(markdown, "Returns `int` - blorp"); } fn write_failure(ctxt: ctxt, str: option) { alt str { some(str) { ctxt.w.write_line(#fmt("Failure conditions: %s", str)); ctxt.w.write_line(""); } none { } } } #[test] fn should_write_failure_conditions() { let markdown = test::render( "#[doc(failure = \"it's the fail\")] fn a () { }"); assert str::contains( markdown, "\n\nFailure conditions: it's the fail\n\n"); } fn write_const( ctxt: ctxt, doc: doc::constdoc ) { write_header(ctxt, h2, #fmt("Const `%s`", doc.name)); write_sig(ctxt, doc.ty); write_brief(ctxt, doc.brief); write_desc(ctxt, doc.desc); } #[test] fn should_write_const_header() { let markdown = test::render("const a: bool = true;"); assert str::contains(markdown, "## Const `a`\n\n"); } #[test] fn should_write_const_description() { let markdown = test::render( "#[doc(brief = \"a\", desc = \"b\")]\ const a: bool = true;"); assert str::contains(markdown, "\n\na\n\nb\n\n"); } fn write_enum( ctxt: ctxt, doc: doc::enumdoc ) { write_header(ctxt, h2, #fmt("Enum `%s`", doc.name)); write_brief(ctxt, doc.brief); write_desc(ctxt, doc.desc); write_variants(ctxt, doc.variants); } #[test] fn should_write_enum_header() { let markdown = test::render("enum a { b }"); assert str::contains(markdown, "## Enum `a`\n\n"); } #[test] fn should_write_enum_description() { let markdown = test::render( "#[doc(brief = \"a\", desc = \"b\")] enum a { b }"); assert str::contains(markdown, "\n\na\n\nb\n\n"); } fn write_variants( ctxt: ctxt, docs: [doc::variantdoc] ) { if vec::is_empty(docs) { ret; } ctxt.w.write_line("Variants:"); ctxt.w.write_line(""); vec::iter(docs, {|variant| write_variant(ctxt, variant) }); ctxt.w.write_line(""); } fn write_variant(ctxt: ctxt, doc: doc::variantdoc) { assert option::is_some(doc.sig); let sig = option::get(doc.sig); alt doc.desc { some(desc) { ctxt.w.write_line(#fmt("* `%s` - %s", sig, desc)); } none { ctxt.w.write_line(#fmt("* `%s`", sig)); } } } #[test] fn should_write_variant_list() { let markdown = test::render( "enum a { \ #[doc = \"test\"] b, \ #[doc = \"test\"] c }"); assert str::contains( markdown, "\n\nVariants:\n\ \n* `b` - test\ \n* `c` - test\n\n"); } #[test] fn should_write_variant_list_without_descs() { let markdown = test::render("enum a { b, c }"); assert str::contains( markdown, "\n\nVariants:\n\ \n* `b`\ \n* `c`\n\n"); } #[test] fn should_write_variant_list_with_signatures() { let markdown = test::render("enum a { b(int), #[doc = \"a\"] c(int) }"); assert str::contains( markdown, "\n\nVariants:\n\ \n* `b(int)`\ \n* `c(int)` - a\n\n"); } fn write_res(ctxt: ctxt, doc: doc::resdoc) { write_header(ctxt, h2, #fmt("Resource `%s`", doc.name)); write_sig(ctxt, doc.sig); write_brief(ctxt, doc.brief); write_desc(ctxt, doc.desc); write_args(ctxt, doc.args); } #[test] fn should_write_resource_header() { let markdown = test::render("resource r(a: bool) { }"); assert str::contains(markdown, "## Resource `r`"); } #[test] fn should_write_resource_signature() { let markdown = test::render("resource r(a: bool) { }"); assert str::contains(markdown, "\n resource r(a: bool)\n"); } #[test] fn should_write_resource_args() { let markdown = test::render("#[doc(args(a = \"b\"))]\ resource r(a: bool) { }"); assert str::contains(markdown, "Arguments:\n\n* `a`: `bool` - b"); } fn write_iface(ctxt: ctxt, doc: doc::ifacedoc) { write_header(ctxt, h2, #fmt("Interface `%s`", doc.name)); write_brief(ctxt, doc.brief); write_desc(ctxt, doc.desc); write_methods(ctxt, doc.methods); } fn write_methods(ctxt: ctxt, docs: [doc::methoddoc]) { vec::iter(docs) {|doc| write_method(ctxt, doc) } } fn write_method(ctxt: ctxt, doc: doc::methoddoc) { write_header(ctxt, h3, #fmt("Method `%s`", doc.name)); write_fnlike( ctxt, doc.sig, doc.brief, doc.desc, doc.args, doc.return, doc.failure ); } #[test] fn should_write_iface_header() { let markdown = test::render("iface i { fn a(); }"); assert str::contains(markdown, "## Interface `i`"); } #[test] fn should_write_iface_brief() { let markdown = test::render( "#[doc(brief = \"brief\")] iface i { fn a(); }"); assert str::contains(markdown, "brief"); } #[test] fn should_write_iface_desc() { let markdown = test::render( "#[doc(desc = \"desc\")] iface i { fn a(); }"); assert str::contains(markdown, "desc"); } #[test] fn should_write_iface_method_header() { let markdown = test::render( "iface i { fn a(); }"); assert str::contains(markdown, "### Method `a`"); } #[test] fn should_write_iface_method_signature() { let markdown = test::render( "iface i { fn a(); }"); assert str::contains(markdown, "\n fn a()"); } #[test] fn should_write_iface_method_argument_header() { let markdown = test::render( "iface a { fn a(b: int); }"); assert str::contains(markdown, "\n\nArguments:\n\n"); } #[test] fn should_write_iface_method_arguments() { let markdown = test::render( "iface a { fn a(b: int); }"); assert str::contains(markdown, "* `b`: `int`\n"); } #[test] fn should_not_write_iface_method_arguments_if_none() { let markdown = test::render( "iface a { fn a(); }"); assert !str::contains(markdown, "Arguments"); } #[test] fn should_write_iface_method_return_info() { let markdown = test::render( "iface a { fn a() -> int; }"); assert str::contains(markdown, "Returns `int`"); } #[test] fn should_write_iface_method_failure_conditions() { let markdown = test::render( "iface a { #[doc(failure = \"nuked\")] fn a(); }"); assert str::contains(markdown, "Failure conditions: nuked"); } fn write_impl(ctxt: ctxt, doc: doc::impldoc) { assert option::is_some(doc.self_ty); let self_ty = option::get(doc.self_ty); alt doc.iface_ty { some(iface_ty) { write_header(ctxt, h2, #fmt("Implementation `%s` of `%s` for `%s`", doc.name, iface_ty, self_ty)); } none { write_header(ctxt, h2, #fmt("Implementation `%s` for `%s`", doc.name, self_ty)); } } write_brief(ctxt, doc.brief); write_desc(ctxt, doc.desc); write_methods(ctxt, doc.methods); } #[test] fn should_write_impl_header() { let markdown = test::render("impl i for int { fn a() { } }"); assert str::contains(markdown, "## Implementation `i` for `int`"); } #[test] fn should_write_impl_header_with_iface() { let markdown = test::render("impl i of j for int { fn a() { } }"); assert str::contains(markdown, "## Implementation `i` of `j` for `int`"); } #[test] fn should_write_impl_brief() { let markdown = test::render( "#[doc(brief = \"brief\")] impl i for int { fn a() { } }"); assert str::contains(markdown, "brief"); } #[test] fn should_write_impl_desc() { let markdown = test::render( "#[doc(desc = \"desc\")] impl i for int { fn a() { } }"); assert str::contains(markdown, "desc"); } #[test] fn should_write_impl_method_header() { let markdown = test::render( "impl i for int { fn a() { } }"); assert str::contains(markdown, "### Method `a`"); } #[test] fn should_write_impl_method_signature() { let markdown = test::render( "impl i for int { fn a() { } }"); assert str::contains(markdown, "\n fn a()"); } #[test] fn should_write_impl_method_argument_header() { let markdown = test::render( "impl a for int { fn a(b: int) { } }"); assert str::contains(markdown, "\n\nArguments:\n\n"); } #[test] fn should_write_impl_method_arguments() { let markdown = test::render( "impl a for int { fn a(b: int) { } }"); assert str::contains(markdown, "* `b`: `int`\n"); } #[test] fn should_not_write_impl_method_arguments_if_none() { let markdown = test::render( "impl a for int { fn a() { } }"); assert !str::contains(markdown, "Arguments"); } #[test] fn should_write_impl_method_return_info() { let markdown = test::render( "impl a for int { fn a() -> int { } }"); assert str::contains(markdown, "Returns `int`"); } #[test] fn should_write_impl_method_failure_conditions() { let markdown = test::render( "impl a for int { #[doc(failure = \"nuked\")] fn a() { } }"); assert str::contains(markdown, "Failure conditions: nuked"); } #[cfg(test)] mod test { fn render(source: str) -> str { let (srv, doc) = create_doc_srv(source); let markdown = write_markdown_str_srv(srv, doc); #debug("markdown: %s", markdown); markdown } fn create_doc_srv(source: str) -> (astsrv::srv, doc::cratedoc) { let srv = astsrv::mk_srv_from_str(source); let doc = extract::from_srv(srv, ""); #debug("doc (extract): %?", doc); let doc = tystr_pass::mk_pass()(srv, doc); #debug("doc (tystr): %?", doc); let doc = path_pass::mk_pass()(srv, doc); #debug("doc (path): %?", doc); let doc = attr_pass::mk_pass()(srv, doc); #debug("doc (attr): %?", doc); (srv, doc) } fn create_doc(source: str) -> doc::cratedoc { let (_, doc) = create_doc_srv(source); doc } fn write_markdown_str( doc: doc::cratedoc ) -> str { let buffer = io::mk_mem_buffer(); let writer = io::mem_buffer_writer(buffer); write_markdown(doc, writer); ret io::mem_buffer_str(buffer); } fn write_markdown_str_srv( srv: astsrv::srv, doc: doc::cratedoc ) -> str { let port = comm::port(); let chan = comm::chan(port); let pass = mk_pass {|f| let buffer = io::mk_mem_buffer(); let writer = io::mem_buffer_writer(buffer); f(writer); let result = io::mem_buffer_str(buffer); comm::send(chan, result); }; pass(srv, doc); ret comm::recv(port); } #[test] fn write_markdown_should_write_crate_header() { let srv = astsrv::mk_srv_from_str(""); let doc = extract::from_srv(srv, "belch"); let doc = attr_pass::mk_pass()(srv, doc); let markdown = write_markdown_str(doc); assert str::contains(markdown, "# Crate belch"); } #[test] fn write_markdown_should_write_mod_headers() { let markdown = render("mod moo { }"); assert str::contains(markdown, "# Module `moo`"); } #[test] fn should_leave_blank_line_after_header() { let markdown = render("mod morp { }"); assert str::contains(markdown, "Module `morp`\n\n"); } }