zig/doc/docgen.zig
g-w1 51a904677c
update depreciated code (#7502)
* `zig env`:

* fix depreciated interface, update outStream -> writer
* make code more readable by updating `anytype` -> `std.fs.File.Writer`
2020-12-23 13:01:29 +02:00

1478 lines
62 KiB
Zig

const std = @import("std");
const builtin = std.builtin;
const io = std.io;
const fs = std.fs;
const process = std.process;
const ChildProcess = std.ChildProcess;
const print = std.debug.print;
const mem = std.mem;
const testing = std.testing;
const max_doc_file_size = 10 * 1024 * 1024;
const exe_ext = @as(std.zig.CrossTarget, .{}).exeFileExt();
const obj_ext = @as(std.zig.CrossTarget, .{}).oFileExt();
const tmp_dir_name = "docgen_tmp";
const test_out_path = tmp_dir_name ++ fs.path.sep_str ++ "test" ++ exe_ext;
pub fn main() !void {
var arena = std.heap.ArenaAllocator.init(std.heap.page_allocator);
defer arena.deinit();
const allocator = &arena.allocator;
var args_it = process.args();
if (!args_it.skip()) @panic("expected self arg");
const zig_exe = try (args_it.next(allocator) orelse @panic("expected zig exe arg"));
defer allocator.free(zig_exe);
const in_file_name = try (args_it.next(allocator) orelse @panic("expected input arg"));
defer allocator.free(in_file_name);
const out_file_name = try (args_it.next(allocator) orelse @panic("expected output arg"));
defer allocator.free(out_file_name);
var in_file = try fs.cwd().openFile(in_file_name, .{ .read = true });
defer in_file.close();
var out_file = try fs.cwd().createFile(out_file_name, .{});
defer out_file.close();
const input_file_bytes = try in_file.inStream().readAllAlloc(allocator, max_doc_file_size);
var buffered_out_stream = io.bufferedOutStream(out_file.writer());
var tokenizer = Tokenizer.init(in_file_name, input_file_bytes);
var toc = try genToc(allocator, &tokenizer);
try fs.cwd().makePath(tmp_dir_name);
defer fs.cwd().deleteTree(tmp_dir_name) catch {};
try genHtml(allocator, &tokenizer, &toc, buffered_out_stream.writer(), zig_exe);
try buffered_out_stream.flush();
}
const Token = struct {
id: Id,
start: usize,
end: usize,
const Id = enum {
Invalid,
Content,
BracketOpen,
TagContent,
Separator,
BracketClose,
Eof,
};
};
const Tokenizer = struct {
buffer: []const u8,
index: usize,
state: State,
source_file_name: []const u8,
code_node_count: usize,
const State = enum {
Start,
LBracket,
Hash,
TagName,
Eof,
};
fn init(source_file_name: []const u8, buffer: []const u8) Tokenizer {
return Tokenizer{
.buffer = buffer,
.index = 0,
.state = State.Start,
.source_file_name = source_file_name,
.code_node_count = 0,
};
}
fn next(self: *Tokenizer) Token {
var result = Token{
.id = Token.Id.Eof,
.start = self.index,
.end = undefined,
};
while (self.index < self.buffer.len) : (self.index += 1) {
const c = self.buffer[self.index];
switch (self.state) {
State.Start => switch (c) {
'{' => {
self.state = State.LBracket;
},
else => {
result.id = Token.Id.Content;
},
},
State.LBracket => switch (c) {
'#' => {
if (result.id != Token.Id.Eof) {
self.index -= 1;
self.state = State.Start;
break;
} else {
result.id = Token.Id.BracketOpen;
self.index += 1;
self.state = State.TagName;
break;
}
},
else => {
result.id = Token.Id.Content;
self.state = State.Start;
},
},
State.TagName => switch (c) {
'|' => {
if (result.id != Token.Id.Eof) {
break;
} else {
result.id = Token.Id.Separator;
self.index += 1;
break;
}
},
'#' => {
self.state = State.Hash;
},
else => {
result.id = Token.Id.TagContent;
},
},
State.Hash => switch (c) {
'}' => {
if (result.id != Token.Id.Eof) {
self.index -= 1;
self.state = State.TagName;
break;
} else {
result.id = Token.Id.BracketClose;
self.index += 1;
self.state = State.Start;
break;
}
},
else => {
result.id = Token.Id.TagContent;
self.state = State.TagName;
},
},
State.Eof => unreachable,
}
} else {
switch (self.state) {
State.Start, State.LBracket, State.Eof => {},
else => {
result.id = Token.Id.Invalid;
},
}
self.state = State.Eof;
}
result.end = self.index;
return result;
}
const Location = struct {
line: usize,
column: usize,
line_start: usize,
line_end: usize,
};
fn getTokenLocation(self: *Tokenizer, token: Token) Location {
var loc = Location{
.line = 0,
.column = 0,
.line_start = 0,
.line_end = 0,
};
for (self.buffer) |c, i| {
if (i == token.start) {
loc.line_end = i;
while (loc.line_end < self.buffer.len and self.buffer[loc.line_end] != '\n') : (loc.line_end += 1) {}
return loc;
}
if (c == '\n') {
loc.line += 1;
loc.column = 0;
loc.line_start = i + 1;
} else {
loc.column += 1;
}
}
return loc;
}
};
fn parseError(tokenizer: *Tokenizer, token: Token, comptime fmt: []const u8, args: anytype) anyerror {
const loc = tokenizer.getTokenLocation(token);
const args_prefix = .{ tokenizer.source_file_name, loc.line + 1, loc.column + 1 };
print("{}:{}:{}: error: " ++ fmt ++ "\n", args_prefix ++ args);
if (loc.line_start <= loc.line_end) {
print("{}\n", .{tokenizer.buffer[loc.line_start..loc.line_end]});
{
var i: usize = 0;
while (i < loc.column) : (i += 1) {
print(" ", .{});
}
}
{
const caret_count = token.end - token.start;
var i: usize = 0;
while (i < caret_count) : (i += 1) {
print("~", .{});
}
}
print("\n", .{});
}
return error.ParseError;
}
fn assertToken(tokenizer: *Tokenizer, token: Token, id: Token.Id) !void {
if (token.id != id) {
return parseError(tokenizer, token, "expected {}, found {}", .{ @tagName(id), @tagName(token.id) });
}
}
fn eatToken(tokenizer: *Tokenizer, id: Token.Id) !Token {
const token = tokenizer.next();
try assertToken(tokenizer, token, id);
return token;
}
const HeaderOpen = struct {
name: []const u8,
url: []const u8,
n: usize,
};
const SeeAlsoItem = struct {
name: []const u8,
token: Token,
};
const ExpectedOutcome = enum {
Succeed,
Fail,
BuildFail,
};
const Code = struct {
id: Id,
name: []const u8,
source_token: Token,
is_inline: bool,
mode: builtin.Mode,
link_objects: []const []const u8,
target_str: ?[]const u8,
link_libc: bool,
disable_cache: bool,
const Id = union(enum) {
Test,
TestError: []const u8,
TestSafety: []const u8,
Exe: ExpectedOutcome,
Obj: ?[]const u8,
Lib,
};
};
const Link = struct {
url: []const u8,
name: []const u8,
token: Token,
};
const Node = union(enum) {
Content: []const u8,
Nav,
Builtin: Token,
HeaderOpen: HeaderOpen,
SeeAlso: []const SeeAlsoItem,
Code: Code,
Link: Link,
Syntax: Token,
};
const Toc = struct {
nodes: []Node,
toc: []u8,
urls: std.StringHashMap(Token),
};
const Action = enum {
Open,
Close,
};
fn genToc(allocator: *mem.Allocator, tokenizer: *Tokenizer) !Toc {
var urls = std.StringHashMap(Token).init(allocator);
errdefer urls.deinit();
var header_stack_size: usize = 0;
var last_action = Action.Open;
var last_columns: ?u8 = null;
var toc_buf = std.ArrayList(u8).init(allocator);
defer toc_buf.deinit();
var toc = toc_buf.writer();
var nodes = std.ArrayList(Node).init(allocator);
defer nodes.deinit();
try toc.writeByte('\n');
while (true) {
const token = tokenizer.next();
switch (token.id) {
Token.Id.Eof => {
if (header_stack_size != 0) {
return parseError(tokenizer, token, "unbalanced headers", .{});
}
try toc.writeAll(" </ul>\n");
break;
},
Token.Id.Content => {
try nodes.append(Node{ .Content = tokenizer.buffer[token.start..token.end] });
},
Token.Id.BracketOpen => {
const tag_token = try eatToken(tokenizer, Token.Id.TagContent);
const tag_name = tokenizer.buffer[tag_token.start..tag_token.end];
if (mem.eql(u8, tag_name, "nav")) {
_ = try eatToken(tokenizer, Token.Id.BracketClose);
try nodes.append(Node.Nav);
} else if (mem.eql(u8, tag_name, "builtin")) {
_ = try eatToken(tokenizer, Token.Id.BracketClose);
try nodes.append(Node{ .Builtin = tag_token });
} else if (mem.eql(u8, tag_name, "header_open")) {
_ = try eatToken(tokenizer, Token.Id.Separator);
const content_token = try eatToken(tokenizer, Token.Id.TagContent);
const content = tokenizer.buffer[content_token.start..content_token.end];
var columns: ?u8 = null;
while (true) {
const bracket_tok = tokenizer.next();
switch (bracket_tok.id) {
.BracketClose => break,
.Separator => continue,
.TagContent => {
const param = tokenizer.buffer[bracket_tok.start..bracket_tok.end];
if (mem.eql(u8, param, "2col")) {
columns = 2;
} else {
return parseError(
tokenizer,
bracket_tok,
"unrecognized header_open param: {}",
.{param},
);
}
},
else => return parseError(tokenizer, bracket_tok, "invalid header_open token", .{}),
}
}
header_stack_size += 1;
const urlized = try urlize(allocator, content);
try nodes.append(Node{
.HeaderOpen = HeaderOpen{
.name = content,
.url = urlized,
.n = header_stack_size,
},
});
if (try urls.fetchPut(urlized, tag_token)) |entry| {
parseError(tokenizer, tag_token, "duplicate header url: #{}", .{urlized}) catch {};
parseError(tokenizer, entry.value, "other tag here", .{}) catch {};
return error.ParseError;
}
if (last_action == Action.Open) {
try toc.writeByte('\n');
try toc.writeByteNTimes(' ', header_stack_size * 4);
if (last_columns) |n| {
try toc.print("<ul style=\"columns: {}\">\n", .{n});
} else {
try toc.writeAll("<ul>\n");
}
} else {
last_action = Action.Open;
}
last_columns = columns;
try toc.writeByteNTimes(' ', 4 + header_stack_size * 4);
try toc.print("<li><a id=\"toc-{}\" href=\"#{}\">{}</a>", .{ urlized, urlized, content });
} else if (mem.eql(u8, tag_name, "header_close")) {
if (header_stack_size == 0) {
return parseError(tokenizer, tag_token, "unbalanced close header", .{});
}
header_stack_size -= 1;
_ = try eatToken(tokenizer, Token.Id.BracketClose);
if (last_action == Action.Close) {
try toc.writeByteNTimes(' ', 8 + header_stack_size * 4);
try toc.writeAll("</ul></li>\n");
} else {
try toc.writeAll("</li>\n");
last_action = Action.Close;
}
} else if (mem.eql(u8, tag_name, "see_also")) {
var list = std.ArrayList(SeeAlsoItem).init(allocator);
errdefer list.deinit();
while (true) {
const see_also_tok = tokenizer.next();
switch (see_also_tok.id) {
Token.Id.TagContent => {
const content = tokenizer.buffer[see_also_tok.start..see_also_tok.end];
try list.append(SeeAlsoItem{
.name = content,
.token = see_also_tok,
});
},
Token.Id.Separator => {},
Token.Id.BracketClose => {
try nodes.append(Node{ .SeeAlso = list.toOwnedSlice() });
break;
},
else => return parseError(tokenizer, see_also_tok, "invalid see_also token", .{}),
}
}
} else if (mem.eql(u8, tag_name, "link")) {
_ = try eatToken(tokenizer, Token.Id.Separator);
const name_tok = try eatToken(tokenizer, Token.Id.TagContent);
const name = tokenizer.buffer[name_tok.start..name_tok.end];
const url_name = blk: {
const tok = tokenizer.next();
switch (tok.id) {
Token.Id.BracketClose => break :blk name,
Token.Id.Separator => {
const explicit_text = try eatToken(tokenizer, Token.Id.TagContent);
_ = try eatToken(tokenizer, Token.Id.BracketClose);
break :blk tokenizer.buffer[explicit_text.start..explicit_text.end];
},
else => return parseError(tokenizer, tok, "invalid link token", .{}),
}
};
try nodes.append(Node{
.Link = Link{
.url = try urlize(allocator, url_name),
.name = name,
.token = name_tok,
},
});
} else if (mem.eql(u8, tag_name, "code_begin")) {
_ = try eatToken(tokenizer, Token.Id.Separator);
const code_kind_tok = try eatToken(tokenizer, Token.Id.TagContent);
var name: []const u8 = "test";
const maybe_sep = tokenizer.next();
switch (maybe_sep.id) {
Token.Id.Separator => {
const name_tok = try eatToken(tokenizer, Token.Id.TagContent);
name = tokenizer.buffer[name_tok.start..name_tok.end];
_ = try eatToken(tokenizer, Token.Id.BracketClose);
},
Token.Id.BracketClose => {},
else => return parseError(tokenizer, token, "invalid token", .{}),
}
const code_kind_str = tokenizer.buffer[code_kind_tok.start..code_kind_tok.end];
var code_kind_id: Code.Id = undefined;
var is_inline = false;
if (mem.eql(u8, code_kind_str, "exe")) {
code_kind_id = Code.Id{ .Exe = ExpectedOutcome.Succeed };
} else if (mem.eql(u8, code_kind_str, "exe_err")) {
code_kind_id = Code.Id{ .Exe = ExpectedOutcome.Fail };
} else if (mem.eql(u8, code_kind_str, "exe_build_err")) {
code_kind_id = Code.Id{ .Exe = ExpectedOutcome.BuildFail };
} else if (mem.eql(u8, code_kind_str, "test")) {
code_kind_id = Code.Id.Test;
} else if (mem.eql(u8, code_kind_str, "test_err")) {
code_kind_id = Code.Id{ .TestError = name };
name = "test";
} else if (mem.eql(u8, code_kind_str, "test_safety")) {
code_kind_id = Code.Id{ .TestSafety = name };
name = "test";
} else if (mem.eql(u8, code_kind_str, "obj")) {
code_kind_id = Code.Id{ .Obj = null };
} else if (mem.eql(u8, code_kind_str, "obj_err")) {
code_kind_id = Code.Id{ .Obj = name };
name = "test";
} else if (mem.eql(u8, code_kind_str, "lib")) {
code_kind_id = Code.Id.Lib;
} else if (mem.eql(u8, code_kind_str, "syntax")) {
code_kind_id = Code.Id{ .Obj = null };
is_inline = true;
} else {
return parseError(tokenizer, code_kind_tok, "unrecognized code kind: {}", .{code_kind_str});
}
var mode: builtin.Mode = .Debug;
var link_objects = std.ArrayList([]const u8).init(allocator);
defer link_objects.deinit();
var target_str: ?[]const u8 = null;
var link_libc = false;
var disable_cache = false;
const source_token = while (true) {
const content_tok = try eatToken(tokenizer, Token.Id.Content);
_ = try eatToken(tokenizer, Token.Id.BracketOpen);
const end_code_tag = try eatToken(tokenizer, Token.Id.TagContent);
const end_tag_name = tokenizer.buffer[end_code_tag.start..end_code_tag.end];
if (mem.eql(u8, end_tag_name, "code_release_fast")) {
mode = .ReleaseFast;
} else if (mem.eql(u8, end_tag_name, "code_release_safe")) {
mode = .ReleaseSafe;
} else if (mem.eql(u8, end_tag_name, "code_disable_cache")) {
disable_cache = true;
} else if (mem.eql(u8, end_tag_name, "code_link_object")) {
_ = try eatToken(tokenizer, Token.Id.Separator);
const obj_tok = try eatToken(tokenizer, Token.Id.TagContent);
try link_objects.append(tokenizer.buffer[obj_tok.start..obj_tok.end]);
} else if (mem.eql(u8, end_tag_name, "target_windows")) {
target_str = "x86_64-windows";
} else if (mem.eql(u8, end_tag_name, "target_linux_x86_64")) {
target_str = "x86_64-linux";
} else if (mem.eql(u8, end_tag_name, "target_linux_riscv64")) {
target_str = "riscv64-linux";
} else if (mem.eql(u8, end_tag_name, "target_wasm")) {
target_str = "wasm32-freestanding";
} else if (mem.eql(u8, end_tag_name, "target_wasi")) {
target_str = "wasm32-wasi";
} else if (mem.eql(u8, end_tag_name, "link_libc")) {
link_libc = true;
} else if (mem.eql(u8, end_tag_name, "code_end")) {
_ = try eatToken(tokenizer, Token.Id.BracketClose);
break content_tok;
} else {
return parseError(
tokenizer,
end_code_tag,
"invalid token inside code_begin: {}",
.{end_tag_name},
);
}
_ = try eatToken(tokenizer, Token.Id.BracketClose);
} else
unreachable; // TODO issue #707
try nodes.append(Node{
.Code = Code{
.id = code_kind_id,
.name = name,
.source_token = source_token,
.is_inline = is_inline,
.mode = mode,
.link_objects = link_objects.toOwnedSlice(),
.target_str = target_str,
.link_libc = link_libc,
.disable_cache = disable_cache,
},
});
tokenizer.code_node_count += 1;
} else if (mem.eql(u8, tag_name, "syntax")) {
_ = try eatToken(tokenizer, Token.Id.BracketClose);
const content_tok = try eatToken(tokenizer, Token.Id.Content);
_ = try eatToken(tokenizer, Token.Id.BracketOpen);
const end_syntax_tag = try eatToken(tokenizer, Token.Id.TagContent);
const end_tag_name = tokenizer.buffer[end_syntax_tag.start..end_syntax_tag.end];
if (!mem.eql(u8, end_tag_name, "endsyntax")) {
return parseError(
tokenizer,
end_syntax_tag,
"invalid token inside syntax: {}",
.{end_tag_name},
);
}
_ = try eatToken(tokenizer, Token.Id.BracketClose);
try nodes.append(Node{ .Syntax = content_tok });
} else {
return parseError(tokenizer, tag_token, "unrecognized tag name: {}", .{tag_name});
}
},
else => return parseError(tokenizer, token, "invalid token", .{}),
}
}
return Toc{
.nodes = nodes.toOwnedSlice(),
.toc = toc_buf.toOwnedSlice(),
.urls = urls,
};
}
fn urlize(allocator: *mem.Allocator, input: []const u8) ![]u8 {
var buf = std.ArrayList(u8).init(allocator);
defer buf.deinit();
const out = buf.writer();
for (input) |c| {
switch (c) {
'a'...'z', 'A'...'Z', '_', '-', '0'...'9' => {
try out.writeByte(c);
},
' ' => {
try out.writeByte('-');
},
else => {},
}
}
return buf.toOwnedSlice();
}
fn escapeHtml(allocator: *mem.Allocator, input: []const u8) ![]u8 {
var buf = std.ArrayList(u8).init(allocator);
defer buf.deinit();
const out = buf.writer();
try writeEscaped(out, input);
return buf.toOwnedSlice();
}
fn writeEscaped(out: anytype, input: []const u8) !void {
for (input) |c| {
try switch (c) {
'&' => out.writeAll("&amp;"),
'<' => out.writeAll("&lt;"),
'>' => out.writeAll("&gt;"),
'"' => out.writeAll("&quot;"),
else => out.writeByte(c),
};
}
}
//#define VT_RED "\x1b[31;1m"
//#define VT_GREEN "\x1b[32;1m"
//#define VT_CYAN "\x1b[36;1m"
//#define VT_WHITE "\x1b[37;1m"
//#define VT_BOLD "\x1b[0;1m"
//#define VT_RESET "\x1b[0m"
const TermState = enum {
Start,
Escape,
LBracket,
Number,
AfterNumber,
Arg,
ArgNumber,
ExpectEnd,
};
test "term color" {
const input_bytes = "A\x1b[32;1mgreen\x1b[0mB";
const result = try termColor(std.testing.allocator, input_bytes);
defer std.testing.allocator.free(result);
testing.expectEqualSlices(u8, "A<span class=\"t32\">green</span>B", result);
}
fn termColor(allocator: *mem.Allocator, input: []const u8) ![]u8 {
var buf = std.ArrayList(u8).init(allocator);
defer buf.deinit();
var out = buf.writer();
var number_start_index: usize = undefined;
var first_number: usize = undefined;
var second_number: usize = undefined;
var i: usize = 0;
var state = TermState.Start;
var open_span_count: usize = 0;
while (i < input.len) : (i += 1) {
const c = input[i];
switch (state) {
TermState.Start => switch (c) {
'\x1b' => state = TermState.Escape,
else => try out.writeByte(c),
},
TermState.Escape => switch (c) {
'[' => state = TermState.LBracket,
else => return error.UnsupportedEscape,
},
TermState.LBracket => switch (c) {
'0'...'9' => {
number_start_index = i;
state = TermState.Number;
},
else => return error.UnsupportedEscape,
},
TermState.Number => switch (c) {
'0'...'9' => {},
else => {
first_number = std.fmt.parseInt(usize, input[number_start_index..i], 10) catch unreachable;
second_number = 0;
state = TermState.AfterNumber;
i -= 1;
},
},
TermState.AfterNumber => switch (c) {
';' => state = TermState.Arg,
else => {
state = TermState.ExpectEnd;
i -= 1;
},
},
TermState.Arg => switch (c) {
'0'...'9' => {
number_start_index = i;
state = TermState.ArgNumber;
},
else => return error.UnsupportedEscape,
},
TermState.ArgNumber => switch (c) {
'0'...'9' => {},
else => {
second_number = std.fmt.parseInt(usize, input[number_start_index..i], 10) catch unreachable;
state = TermState.ExpectEnd;
i -= 1;
},
},
TermState.ExpectEnd => switch (c) {
'm' => {
state = TermState.Start;
while (open_span_count != 0) : (open_span_count -= 1) {
try out.writeAll("</span>");
}
if (first_number != 0 or second_number != 0) {
try out.print("<span class=\"t{}_{}\">", .{ first_number, second_number });
open_span_count += 1;
}
},
else => return error.UnsupportedEscape,
},
}
}
return buf.toOwnedSlice();
}
const builtin_types = [_][]const u8{
"f16", "f32", "f64", "f128", "c_longdouble", "c_short",
"c_ushort", "c_int", "c_uint", "c_long", "c_ulong", "c_longlong",
"c_ulonglong", "c_char", "c_void", "void", "bool", "isize",
"usize", "noreturn", "type", "anyerror", "comptime_int", "comptime_float",
};
fn isType(name: []const u8) bool {
for (builtin_types) |t| {
if (mem.eql(u8, t, name))
return true;
}
return false;
}
fn tokenizeAndPrintRaw(docgen_tokenizer: *Tokenizer, out: anytype, source_token: Token, raw_src: []const u8) !void {
const src = mem.trim(u8, raw_src, " \n");
try out.writeAll("<code class=\"zig\">");
var tokenizer = std.zig.Tokenizer.init(src);
var index: usize = 0;
var next_tok_is_fn = false;
while (true) {
const prev_tok_was_fn = next_tok_is_fn;
next_tok_is_fn = false;
const token = tokenizer.next();
try writeEscaped(out, src[index..token.loc.start]);
switch (token.id) {
.Eof => break,
.Keyword_align,
.Keyword_and,
.Keyword_asm,
.Keyword_async,
.Keyword_await,
.Keyword_break,
.Keyword_catch,
.Keyword_comptime,
.Keyword_const,
.Keyword_continue,
.Keyword_defer,
.Keyword_else,
.Keyword_enum,
.Keyword_errdefer,
.Keyword_error,
.Keyword_export,
.Keyword_extern,
.Keyword_for,
.Keyword_if,
.Keyword_inline,
.Keyword_noalias,
.Keyword_noinline,
.Keyword_nosuspend,
.Keyword_opaque,
.Keyword_or,
.Keyword_orelse,
.Keyword_packed,
.Keyword_anyframe,
.Keyword_pub,
.Keyword_resume,
.Keyword_return,
.Keyword_linksection,
.Keyword_callconv,
.Keyword_struct,
.Keyword_suspend,
.Keyword_switch,
.Keyword_test,
.Keyword_threadlocal,
.Keyword_try,
.Keyword_union,
.Keyword_unreachable,
.Keyword_usingnamespace,
.Keyword_var,
.Keyword_volatile,
.Keyword_allowzero,
.Keyword_while,
.Keyword_anytype,
=> {
try out.writeAll("<span class=\"tok-kw\">");
try writeEscaped(out, src[token.loc.start..token.loc.end]);
try out.writeAll("</span>");
},
.Keyword_fn => {
try out.writeAll("<span class=\"tok-kw\">");
try writeEscaped(out, src[token.loc.start..token.loc.end]);
try out.writeAll("</span>");
next_tok_is_fn = true;
},
.Keyword_undefined,
.Keyword_null,
.Keyword_true,
.Keyword_false,
=> {
try out.writeAll("<span class=\"tok-null\">");
try writeEscaped(out, src[token.loc.start..token.loc.end]);
try out.writeAll("</span>");
},
.StringLiteral,
.MultilineStringLiteralLine,
.CharLiteral,
=> {
try out.writeAll("<span class=\"tok-str\">");
try writeEscaped(out, src[token.loc.start..token.loc.end]);
try out.writeAll("</span>");
},
.Builtin => {
try out.writeAll("<span class=\"tok-builtin\">");
try writeEscaped(out, src[token.loc.start..token.loc.end]);
try out.writeAll("</span>");
},
.LineComment,
.DocComment,
.ContainerDocComment,
.ShebangLine,
=> {
try out.writeAll("<span class=\"tok-comment\">");
try writeEscaped(out, src[token.loc.start..token.loc.end]);
try out.writeAll("</span>");
},
.Identifier => {
if (prev_tok_was_fn) {
try out.writeAll("<span class=\"tok-fn\">");
try writeEscaped(out, src[token.loc.start..token.loc.end]);
try out.writeAll("</span>");
} else {
const is_int = blk: {
if (src[token.loc.start] != 'i' and src[token.loc.start] != 'u')
break :blk false;
var i = token.loc.start + 1;
if (i == token.loc.end)
break :blk false;
while (i != token.loc.end) : (i += 1) {
if (src[i] < '0' or src[i] > '9')
break :blk false;
}
break :blk true;
};
if (is_int or isType(src[token.loc.start..token.loc.end])) {
try out.writeAll("<span class=\"tok-type\">");
try writeEscaped(out, src[token.loc.start..token.loc.end]);
try out.writeAll("</span>");
} else {
try writeEscaped(out, src[token.loc.start..token.loc.end]);
}
}
},
.IntegerLiteral,
.FloatLiteral,
=> {
try out.writeAll("<span class=\"tok-number\">");
try writeEscaped(out, src[token.loc.start..token.loc.end]);
try out.writeAll("</span>");
},
.Bang,
.Pipe,
.PipePipe,
.PipeEqual,
.Equal,
.EqualEqual,
.EqualAngleBracketRight,
.BangEqual,
.LParen,
.RParen,
.Semicolon,
.Percent,
.PercentEqual,
.LBrace,
.RBrace,
.LBracket,
.RBracket,
.Period,
.PeriodAsterisk,
.Ellipsis2,
.Ellipsis3,
.Caret,
.CaretEqual,
.Plus,
.PlusPlus,
.PlusEqual,
.PlusPercent,
.PlusPercentEqual,
.Minus,
.MinusEqual,
.MinusPercent,
.MinusPercentEqual,
.Asterisk,
.AsteriskEqual,
.AsteriskAsterisk,
.AsteriskPercent,
.AsteriskPercentEqual,
.Arrow,
.Colon,
.Slash,
.SlashEqual,
.Comma,
.Ampersand,
.AmpersandEqual,
.QuestionMark,
.AngleBracketLeft,
.AngleBracketLeftEqual,
.AngleBracketAngleBracketLeft,
.AngleBracketAngleBracketLeftEqual,
.AngleBracketRight,
.AngleBracketRightEqual,
.AngleBracketAngleBracketRight,
.AngleBracketAngleBracketRightEqual,
.Tilde,
=> try writeEscaped(out, src[token.loc.start..token.loc.end]),
.Invalid, .Invalid_ampersands, .Invalid_periodasterisks => return parseError(
docgen_tokenizer,
source_token,
"syntax error",
.{},
),
}
index = token.loc.end;
}
try out.writeAll("</code>");
}
fn tokenizeAndPrint(docgen_tokenizer: *Tokenizer, out: anytype, source_token: Token) !void {
const raw_src = docgen_tokenizer.buffer[source_token.start..source_token.end];
return tokenizeAndPrintRaw(docgen_tokenizer, out, source_token, raw_src);
}
fn genHtml(allocator: *mem.Allocator, tokenizer: *Tokenizer, toc: *Toc, out: anytype, zig_exe: []const u8) !void {
var code_progress_index: usize = 0;
var env_map = try process.getEnvMap(allocator);
try env_map.set("ZIG_DEBUG_COLOR", "1");
const builtin_code = try getBuiltinCode(allocator, &env_map, zig_exe);
for (toc.nodes) |node| {
switch (node) {
.Content => |data| {
try out.writeAll(data);
},
.Link => |info| {
if (!toc.urls.contains(info.url)) {
return parseError(tokenizer, info.token, "url not found: {}", .{info.url});
}
try out.print("<a href=\"#{}\">{}</a>", .{ info.url, info.name });
},
.Nav => {
try out.writeAll(toc.toc);
},
.Builtin => |tok| {
try out.writeAll("<pre>");
try tokenizeAndPrintRaw(tokenizer, out, tok, builtin_code);
try out.writeAll("</pre>");
},
.HeaderOpen => |info| {
try out.print(
"<h{} id=\"{}\"><a href=\"#toc-{}\">{}</a> <a class=\"hdr\" href=\"#{}\">§</a></h{}>\n",
.{ info.n, info.url, info.url, info.name, info.url, info.n },
);
},
.SeeAlso => |items| {
try out.writeAll("<p>See also:</p><ul>\n");
for (items) |item| {
const url = try urlize(allocator, item.name);
if (!toc.urls.contains(url)) {
return parseError(tokenizer, item.token, "url not found: {}", .{url});
}
try out.print("<li><a href=\"#{}\">{}</a></li>\n", .{ url, item.name });
}
try out.writeAll("</ul>\n");
},
.Syntax => |content_tok| {
try tokenizeAndPrint(tokenizer, out, content_tok);
},
.Code => |code| {
code_progress_index += 1;
print("docgen example code {}/{}...", .{ code_progress_index, tokenizer.code_node_count });
const raw_source = tokenizer.buffer[code.source_token.start..code.source_token.end];
const trimmed_raw_source = mem.trim(u8, raw_source, " \n");
if (!code.is_inline) {
try out.print("<p class=\"file\">{}.zig</p>", .{code.name});
}
try out.writeAll("<pre>");
try tokenizeAndPrint(tokenizer, out, code.source_token);
try out.writeAll("</pre>");
const name_plus_ext = try std.fmt.allocPrint(allocator, "{}.zig", .{code.name});
const tmp_source_file_name = try fs.path.join(
allocator,
&[_][]const u8{ tmp_dir_name, name_plus_ext },
);
try fs.cwd().writeFile(tmp_source_file_name, trimmed_raw_source);
switch (code.id) {
Code.Id.Exe => |expected_outcome| code_block: {
const name_plus_bin_ext = try std.fmt.allocPrint(allocator, "{}{}", .{ code.name, exe_ext });
var build_args = std.ArrayList([]const u8).init(allocator);
defer build_args.deinit();
try build_args.appendSlice(&[_][]const u8{
zig_exe, "build-exe",
"--name", code.name,
"--color", "on",
"--enable-cache", tmp_source_file_name,
});
try out.print("<pre><code class=\"shell\">$ zig build-exe {}.zig", .{code.name});
switch (code.mode) {
.Debug => {},
else => {
try build_args.appendSlice(&[_][]const u8{ "-O", @tagName(code.mode) });
try out.print(" -O {s}", .{@tagName(code.mode)});
},
}
for (code.link_objects) |link_object| {
const name_with_ext = try std.fmt.allocPrint(allocator, "{}{}", .{ link_object, obj_ext });
const full_path_object = try fs.path.join(
allocator,
&[_][]const u8{ tmp_dir_name, name_with_ext },
);
try build_args.append(full_path_object);
try out.print(" {s}", .{name_with_ext});
}
if (code.link_libc) {
try build_args.append("-lc");
try out.print(" -lc", .{});
}
const target = try std.zig.CrossTarget.parse(.{
.arch_os_abi = code.target_str orelse "native",
});
if (code.target_str) |triple| {
try build_args.appendSlice(&[_][]const u8{ "-target", triple });
if (!code.is_inline) {
try out.print(" -target {}", .{triple});
}
}
if (expected_outcome == .BuildFail) {
const result = try ChildProcess.exec(.{
.allocator = allocator,
.argv = build_args.items,
.env_map = &env_map,
.max_output_bytes = max_doc_file_size,
});
switch (result.term) {
.Exited => |exit_code| {
if (exit_code == 0) {
print("{}\nThe following command incorrectly succeeded:\n", .{result.stderr});
dumpArgs(build_args.items);
return parseError(tokenizer, code.source_token, "example incorrectly compiled", .{});
}
},
else => {
print("{}\nThe following command crashed:\n", .{result.stderr});
dumpArgs(build_args.items);
return parseError(tokenizer, code.source_token, "example compile crashed", .{});
},
}
const escaped_stderr = try escapeHtml(allocator, result.stderr);
const colored_stderr = try termColor(allocator, escaped_stderr);
try out.print("\n{}</code></pre>\n", .{colored_stderr});
break :code_block;
}
const exec_result = exec(allocator, &env_map, build_args.items) catch
return parseError(tokenizer, code.source_token, "example failed to compile", .{});
if (code.target_str) |triple| {
if (mem.startsWith(u8, triple, "wasm32") or
mem.startsWith(u8, triple, "riscv64-linux") or
(mem.startsWith(u8, triple, "x86_64-linux") and
std.Target.current.os.tag != .linux or std.Target.current.cpu.arch != .x86_64))
{
// skip execution
try out.print("</code></pre>\n", .{});
break :code_block;
}
}
const path_to_exe_dir = mem.trim(u8, exec_result.stdout, " \r\n");
const path_to_exe_basename = try std.fmt.allocPrint(allocator, "{}{}", .{
code.name,
target.exeFileExt(),
});
const path_to_exe = try fs.path.join(allocator, &[_][]const u8{
path_to_exe_dir,
path_to_exe_basename,
});
const run_args = &[_][]const u8{path_to_exe};
var exited_with_signal = false;
const result = if (expected_outcome == ExpectedOutcome.Fail) blk: {
const result = try ChildProcess.exec(.{
.allocator = allocator,
.argv = run_args,
.env_map = &env_map,
.max_output_bytes = max_doc_file_size,
});
switch (result.term) {
.Exited => |exit_code| {
if (exit_code == 0) {
print("{}\nThe following command incorrectly succeeded:\n", .{result.stderr});
dumpArgs(run_args);
return parseError(tokenizer, code.source_token, "example incorrectly compiled", .{});
}
},
.Signal => exited_with_signal = true,
else => {},
}
break :blk result;
} else blk: {
break :blk exec(allocator, &env_map, run_args) catch return parseError(tokenizer, code.source_token, "example crashed", .{});
};
const escaped_stderr = try escapeHtml(allocator, result.stderr);
const escaped_stdout = try escapeHtml(allocator, result.stdout);
const colored_stderr = try termColor(allocator, escaped_stderr);
const colored_stdout = try termColor(allocator, escaped_stdout);
try out.print("\n$ ./{}\n{}{}", .{ code.name, colored_stdout, colored_stderr });
if (exited_with_signal) {
try out.print("(process terminated by signal)", .{});
}
try out.print("</code></pre>\n", .{});
},
Code.Id.Test => {
var test_args = std.ArrayList([]const u8).init(allocator);
defer test_args.deinit();
try test_args.appendSlice(&[_][]const u8{ zig_exe, "test", tmp_source_file_name });
try out.print("<pre><code class=\"shell\">$ zig test {}.zig", .{code.name});
switch (code.mode) {
.Debug => {},
else => {
try test_args.appendSlice(&[_][]const u8{ "-O", @tagName(code.mode) });
try out.print(" -O {s}", .{@tagName(code.mode)});
},
}
if (code.link_libc) {
try test_args.append("-lc");
try out.print(" -lc", .{});
}
if (code.target_str) |triple| {
try test_args.appendSlice(&[_][]const u8{ "-target", triple });
try out.print(" -target {}", .{triple});
}
const result = exec(allocator, &env_map, test_args.items) catch return parseError(tokenizer, code.source_token, "test failed", .{});
const escaped_stderr = try escapeHtml(allocator, result.stderr);
const escaped_stdout = try escapeHtml(allocator, result.stdout);
try out.print("\n{}{}</code></pre>\n", .{ escaped_stderr, escaped_stdout });
},
Code.Id.TestError => |error_match| {
var test_args = std.ArrayList([]const u8).init(allocator);
defer test_args.deinit();
try test_args.appendSlice(&[_][]const u8{
zig_exe,
"test",
"--color",
"on",
tmp_source_file_name,
});
try out.print("<pre><code class=\"shell\">$ zig test {}.zig", .{code.name});
switch (code.mode) {
.Debug => {},
else => {
try test_args.appendSlice(&[_][]const u8{ "-O", @tagName(code.mode) });
try out.print(" -O {s}", .{@tagName(code.mode)});
},
}
const result = try ChildProcess.exec(.{
.allocator = allocator,
.argv = test_args.items,
.env_map = &env_map,
.max_output_bytes = max_doc_file_size,
});
switch (result.term) {
.Exited => |exit_code| {
if (exit_code == 0) {
print("{}\nThe following command incorrectly succeeded:\n", .{result.stderr});
dumpArgs(test_args.items);
return parseError(tokenizer, code.source_token, "example incorrectly compiled", .{});
}
},
else => {
print("{}\nThe following command crashed:\n", .{result.stderr});
dumpArgs(test_args.items);
return parseError(tokenizer, code.source_token, "example compile crashed", .{});
},
}
if (mem.indexOf(u8, result.stderr, error_match) == null) {
print("{}\nExpected to find '{}' in stderr\n", .{ result.stderr, error_match });
return parseError(tokenizer, code.source_token, "example did not have expected compile error", .{});
}
const escaped_stderr = try escapeHtml(allocator, result.stderr);
const colored_stderr = try termColor(allocator, escaped_stderr);
try out.print("\n{}</code></pre>\n", .{colored_stderr});
},
Code.Id.TestSafety => |error_match| {
var test_args = std.ArrayList([]const u8).init(allocator);
defer test_args.deinit();
try test_args.appendSlice(&[_][]const u8{
zig_exe,
"test",
tmp_source_file_name,
});
var mode_arg: []const u8 = "";
switch (code.mode) {
.Debug => {},
.ReleaseSafe => {
try test_args.append("-OReleaseSafe");
mode_arg = "-OReleaseSafe";
},
.ReleaseFast => {
try test_args.append("-OReleaseFast");
mode_arg = "-OReleaseFast";
},
.ReleaseSmall => {
try test_args.append("-OReleaseSmall");
mode_arg = "-OReleaseSmall";
},
}
const result = try ChildProcess.exec(.{
.allocator = allocator,
.argv = test_args.items,
.env_map = &env_map,
.max_output_bytes = max_doc_file_size,
});
switch (result.term) {
.Exited => |exit_code| {
if (exit_code == 0) {
print("{}\nThe following command incorrectly succeeded:\n", .{result.stderr});
dumpArgs(test_args.items);
return parseError(tokenizer, code.source_token, "example test incorrectly succeeded", .{});
}
},
else => {
print("{}\nThe following command crashed:\n", .{result.stderr});
dumpArgs(test_args.items);
return parseError(tokenizer, code.source_token, "example compile crashed", .{});
},
}
if (mem.indexOf(u8, result.stderr, error_match) == null) {
print("{}\nExpected to find '{}' in stderr\n", .{ result.stderr, error_match });
return parseError(tokenizer, code.source_token, "example did not have expected runtime safety error message", .{});
}
const escaped_stderr = try escapeHtml(allocator, result.stderr);
const colored_stderr = try termColor(allocator, escaped_stderr);
try out.print("<pre><code class=\"shell\">$ zig test {}.zig{}\n{}</code></pre>\n", .{
code.name,
mode_arg,
colored_stderr,
});
},
Code.Id.Obj => |maybe_error_match| {
const name_plus_obj_ext = try std.fmt.allocPrint(allocator, "{}{}", .{ code.name, obj_ext });
const tmp_obj_file_name = try fs.path.join(
allocator,
&[_][]const u8{ tmp_dir_name, name_plus_obj_ext },
);
var build_args = std.ArrayList([]const u8).init(allocator);
defer build_args.deinit();
const name_plus_h_ext = try std.fmt.allocPrint(allocator, "{}.h", .{code.name});
const output_h_file_name = try fs.path.join(
allocator,
&[_][]const u8{ tmp_dir_name, name_plus_h_ext },
);
try build_args.appendSlice(&[_][]const u8{
zig_exe,
"build-obj",
tmp_source_file_name,
"--color",
"on",
"--name",
code.name,
try std.fmt.allocPrint(allocator, "-femit-bin={s}{c}{s}", .{
tmp_dir_name, fs.path.sep, name_plus_obj_ext,
}),
});
if (!code.is_inline) {
try out.print("<pre><code class=\"shell\">$ zig build-obj {}.zig", .{code.name});
}
switch (code.mode) {
.Debug => {},
else => {
try build_args.appendSlice(&[_][]const u8{ "-O", @tagName(code.mode) });
if (!code.is_inline) {
try out.print(" -O {s}", .{@tagName(code.mode)});
}
},
}
if (code.target_str) |triple| {
try build_args.appendSlice(&[_][]const u8{ "-target", triple });
try out.print(" -target {}", .{triple});
}
if (maybe_error_match) |error_match| {
const result = try ChildProcess.exec(.{
.allocator = allocator,
.argv = build_args.items,
.env_map = &env_map,
.max_output_bytes = max_doc_file_size,
});
switch (result.term) {
.Exited => |exit_code| {
if (exit_code == 0) {
print("{}\nThe following command incorrectly succeeded:\n", .{result.stderr});
dumpArgs(build_args.items);
return parseError(tokenizer, code.source_token, "example build incorrectly succeeded", .{});
}
},
else => {
print("{}\nThe following command crashed:\n", .{result.stderr});
dumpArgs(build_args.items);
return parseError(tokenizer, code.source_token, "example compile crashed", .{});
},
}
if (mem.indexOf(u8, result.stderr, error_match) == null) {
print("{}\nExpected to find '{}' in stderr\n", .{ result.stderr, error_match });
return parseError(tokenizer, code.source_token, "example did not have expected compile error message", .{});
}
const escaped_stderr = try escapeHtml(allocator, result.stderr);
const colored_stderr = try termColor(allocator, escaped_stderr);
try out.print("\n{}", .{colored_stderr});
} else {
_ = exec(allocator, &env_map, build_args.items) catch return parseError(tokenizer, code.source_token, "example failed to compile", .{});
}
if (!code.is_inline) {
try out.print("</code></pre>\n", .{});
}
},
Code.Id.Lib => {
const bin_basename = try std.zig.binNameAlloc(allocator, .{
.root_name = code.name,
.target = std.Target.current,
.output_mode = .Lib,
});
var test_args = std.ArrayList([]const u8).init(allocator);
defer test_args.deinit();
try test_args.appendSlice(&[_][]const u8{
zig_exe,
"build-lib",
tmp_source_file_name,
try std.fmt.allocPrint(allocator, "-femit-bin={s}{s}{s}", .{
tmp_dir_name, fs.path.sep_str, bin_basename,
}),
});
try out.print("<pre><code class=\"shell\">$ zig build-lib {}.zig", .{code.name});
switch (code.mode) {
.Debug => {},
else => {
try test_args.appendSlice(&[_][]const u8{ "-O", @tagName(code.mode) });
try out.print(" -O {s}", .{@tagName(code.mode)});
},
}
if (code.target_str) |triple| {
try test_args.appendSlice(&[_][]const u8{ "-target", triple });
try out.print(" -target {}", .{triple});
}
const result = exec(allocator, &env_map, test_args.items) catch return parseError(tokenizer, code.source_token, "test failed", .{});
const escaped_stderr = try escapeHtml(allocator, result.stderr);
const escaped_stdout = try escapeHtml(allocator, result.stdout);
try out.print("\n{}{}</code></pre>\n", .{ escaped_stderr, escaped_stdout });
},
}
print("OK\n", .{});
},
}
}
}
fn exec(allocator: *mem.Allocator, env_map: *std.BufMap, args: []const []const u8) !ChildProcess.ExecResult {
const result = try ChildProcess.exec(.{
.allocator = allocator,
.argv = args,
.env_map = env_map,
.max_output_bytes = max_doc_file_size,
});
switch (result.term) {
.Exited => |exit_code| {
if (exit_code != 0) {
print("{}\nThe following command exited with code {}:\n", .{ result.stderr, exit_code });
dumpArgs(args);
return error.ChildExitError;
}
},
else => {
print("{}\nThe following command crashed:\n", .{result.stderr});
dumpArgs(args);
return error.ChildCrashed;
},
}
return result;
}
fn getBuiltinCode(allocator: *mem.Allocator, env_map: *std.BufMap, zig_exe: []const u8) ![]const u8 {
const result = try exec(allocator, env_map, &[_][]const u8{ zig_exe, "build-obj", "--show-builtin" });
return result.stdout;
}
fn dumpArgs(args: []const []const u8) void {
for (args) |arg|
print("{} ", .{arg})
else
print("\n", .{});
}