dfhack/library/lua/helpdb.lua

672 lines
23 KiB
Lua

-- The help text database and query interface.
--
-- Help text is read from the rendered text in hack/docs/docs/. If no rendered
-- text exists, it is read from the script sources (for scripts) or the string
-- passed to the PluginCommand initializer (for plugins).
--
-- For plugins that don't register a command with the same name as the plugin,
-- the plugin name is registered as a separate entry so documentation on what
-- happens when you enable the plugin can be found.
--
-- The database is lazy-loaded when an API method is called. It rechecks its
-- help sources for updates if an API method has not been called in the last
-- 60 seconds.
local _ENV = mkmodule('helpdb')
-- paths
local RENDERED_PATH = 'hack/docs/docs/tools/'
local BUILTIN_HELP = 'hack/docs/docs/Builtin.txt'
local TAG_DEFINITIONS = 'hack/docs/docs/Tags.txt'
-- used when reading help text embedded in script sources
local SCRIPT_DOC_BEGIN = '[====['
local SCRIPT_DOC_END = ']====]'
local SCRIPT_DOC_BEGIN_RUBY = '=begin'
local SCRIPT_DOC_END_RUBY = '=end'
local ENTRY_TYPES = {
BUILTIN='builtin',
PLUGIN='plugin',
COMMAND='command'
}
local HELP_SOURCES = {
STUB='stub',
RENDERED='rendered',
PLUGIN='plugin',
SCRIPT='script',
}
-- entry name -> {
-- entry_types (set of ENTRY_TYPES),
-- short_help (string),
-- long_help (string),
-- tags (set),
-- help_source (element of HELP_SOURCES),
-- source_timestamp (mtime, 0 for non-files),
-- source_path (string, nil for non-files)
-- }
--
-- entry_types is a set because plugin commands can also be the plugin names.
db = db or {}
-- tag name -> list of entry names
-- Tags defined in the TAG_DEFINITIONS file that have no associated db entries
-- will have an empty list.
tag_index = tag_index or {}
local function get_rendered_path(entry_name)
return RENDERED_PATH .. entry_name .. '.txt'
end
local function has_rendered_help(entry_name)
return dfhack.filesystem.mtime(get_rendered_path(entry_name)) ~= -1
end
local DEFAULT_HELP_TEMPLATE = [[
%s
%s
No help available.
]]
local function make_default_entry(entry_name, entry_types, source,
source_timestamp, source_path)
local default_long_help = DEFAULT_HELP_TEMPLATE:format(
entry_name, ('*'):rep(#entry_name))
return {
entry_types=entry_types,
short_help='No help available.',
long_help=default_long_help,
tags={},
help_source=source,
source_timestamp=source_timestamp or 0,
source_path=source_path}
end
-- updates the short_text, the long_text, and the tags in the given entry based
-- on the text returned from the iterator.
-- if defined, opts can have the following fields:
-- begin_marker (string that marks the beginning of the help text; all text
-- before this marker is ignored)
-- end_marker (string that marks the end of the help text; text will stop
-- being parsed after this marker is seen)
-- no_header (don't try to find the entity name at the top of the help text)
-- first_line_is_short_help (if set, then read the short help text from the
-- first commented line of the script instead of
-- using the first sentence of the long help text.
-- value is the comment character.)
local function update_entry(entry, iterator, opts)
opts = opts or {}
local lines = {}
local first_line_is_short_help = opts.first_line_is_short_help
local begin_marker_found,header_found = not opts.begin_marker,opts.no_header
local tags_found, short_help_found, in_short_help = false, false, false
for line in iterator do
if not short_help_found and first_line_is_short_help then
line = line:trim()
local _,_,text = line:find('^'..first_line_is_short_help..'%s*(.*)')
if not text then
-- if no first-line short help found, fall back to getting the
-- first sentence of the help text.
first_line_is_short_help = false
else
if not text:endswith('.') then
text = text .. '.'
end
entry.short_help = text
short_help_found = true
goto continue
end
end
if not begin_marker_found then
local _, endpos = line:find(opts.begin_marker, 1, true)
if endpos == #line then
begin_marker_found = true
end
goto continue
end
if opts.end_marker then
local _, endpos = line:find(opts.end_marker, 1, true)
if endpos == #line then
break
end
end
if not header_found and line:find('%w') then
header_found = true
elseif not tags_found and line:find('^Tags: [%w, ]+$') then
local _,_,tags = line:trim():find('Tags: (.*)')
entry.tags = {}
for _,tag in ipairs(tags:split('[ ,]+')) do
entry.tags[tag] = true
end
tags_found = true
elseif not short_help_found and not line:find('^Keybinding:') and
line:find('%w') then
if in_short_help then
entry.short_help = entry.short_help .. ' ' .. line
else
entry.short_help = line
end
local sentence_end = entry.short_help:find('.', 1, true)
if sentence_end then
entry.short_help = entry.short_help:sub(1, sentence_end)
short_help_found = true
else
in_short_help = true
end
end
table.insert(lines, line)
::continue::
end
entry.long_help = table.concat(lines, '\n')
end
-- create db entry based on parsing sphinx-rendered help text
local function make_rendered_entry(old_entry, entry_name, entry_types)
local rendered_path = get_rendered_path(entry_name)
local source_timestamp = dfhack.filesystem.mtime(rendered_path)
if old_entry and old_entry.source == HELP_SOURCES.RENDERED and
old_entry.source_timestamp >= source_timestamp then
-- we already have the latest info
return old_entry
end
local entry = make_default_entry(entry_name, entry_types,
HELP_SOURCES.RENDERED, source_timestamp, rendered_path)
update_entry(entry, io.lines(rendered_path))
return entry
end
-- create db entry based on the help text in the plugin source (used by
-- out-of-tree plugins)
local function make_plugin_entry(old_entry, entry_name, entry_types)
if old_entry and old_entry.source == HELP_SOURCES.PLUGIN then
-- we can't tell when a plugin is reloaded, so we can either choose to
-- always refresh or never refresh. let's go with never for now for
-- performance.
return old_entry
end
local entry = make_default_entry(entry_name, entry_types,
HELP_SOURCES.PLUGIN)
local long_help = dfhack.internal.getCommandHelp(entry_name)
if long_help and #long_help:trim() > 0 then
update_entry(entry, long_help:trim():gmatch('[^\n]*'), {no_header=true})
end
return entry
end
-- create db entry based on the help text in the script source (used by
-- out-of-tree scripts)
local function make_script_entry(old_entry, entry_name, script_source_path)
local source_timestamp = dfhack.filesystem.mtime(script_source_path)
if old_entry and old_entry.source == HELP_SOURCES.SCRIPT and
old_entry.script_source_path == script_source_path and
old_entry.source_timestamp >= source_timestamp then
-- we already have the latest info
return old_entry
end
local entry = make_default_entry(entry_name, {[ENTRY_TYPES.COMMAND]=true},
HELP_SOURCES.SCRIPT, source_timestamp, script_source_path)
local ok, lines = pcall(io.lines, script_source_path)
if not ok then return entry end
local is_rb = script_source_path:endswith('.rb')
update_entry(entry, lines,
{begin_marker=(is_rb and SCRIPT_DOC_BEGIN_RUBY or SCRIPT_DOC_BEGIN),
end_marker=(is_rb and SCRIPT_DOC_BEGIN_RUBY or SCRIPT_DOC_END),
first_line_is_short_help=(is_rb and '#' or '%-%-')})
return entry
end
-- updates the db (and associated tag index) with a new entry if the entry_name
-- doesn't already exist in the db.
local function update_db(old_db, db, source, entry_name, kwargs)
if db[entry_name] then
-- already in db (e.g. from a higher-priority script dir); skip
return
end
local entry, old_entry = nil, old_db[entry_name]
if source == HELP_SOURCES.RENDERED then
entry = make_rendered_entry(old_entry, entry_name, kwargs.entry_types)
elseif source == HELP_SOURCES.PLUGIN then
entry = make_plugin_entry(old_entry, entry_name, kwargs.entry_types)
elseif source == HELP_SOURCES.SCRIPT then
entry = make_script_entry(old_entry, entry_name, kwargs.script_source)
elseif source == HELP_SOURCES.STUB then
entry = make_default_entry(entry_name, kwargs.entry_types,
HELP_SOURCES.STUB)
else
error('unhandled help source: ' .. source)
end
db[entry_name] = entry
for _,tag in ipairs(entry.tags) do
-- ignore unknown tags
if tag_index[tag] then
table.insert(tag_index[tag], entry_name)
end
end
end
local BUILTINS = {
alias='Configure helper aliases for other DFHack commands.',
cls='Clear the console screen.',
clear='Clear the console screen.',
['devel/dump-rpc']='Write RPC endpoint information to a file.',
die='Force DF to close immediately, without saving.',
enable='Enable a plugin or persistent script.',
disable='Disable a plugin or persistent script.',
fpause='Force DF to pause.',
help='Usage help for the given plugin, command, or script.',
hide='Hide the terminal window (Windows only).',
keybinding='Modify bindings of commands to in-game key shortcuts.',
['kill-lua']='Stop a misbehaving Lua script.',
['load']='Load and register a plugin library.',
unload='Unregister and unload a plugin.',
reload='Unload and reload a plugin library.',
ls='List commands, optionally filtered by a tag or substring.',
dir='List commands, optionally filtered by a tag or substring.',
plug='List plugins and whether they are enabled.',
['sc-script']='Automatically run specified scripts on state change events.',
script='Run commands specified in a file.',
show='Show a hidden terminal window (Windows only).',
tags='List the tags that the DFHack tools are grouped by.',
['type']='Discover how a command is implemented.',
}
-- add the builtin commands to the db
local function scan_builtins(old_db, db)
local entry = make_default_entry('builtin',
{[ENTRY_TYPES.BUILTIN]=true, [ENTRY_TYPES.COMMAND]=true},
HELP_SOURCES.RENDERED, 0, BUILTIN_HELP)
-- read in builtin help
local f = io.open(BUILTIN_HELP)
if f then
entry.long_help = f:read('*all')
end
for b,short_help in pairs(BUILTINS) do
local builtin_entry = copyall(entry)
builtin_entry.short_help = short_help
db[b] = builtin_entry
end
end
-- scan for plugins and plugin-provided commands and add their help to the db
local function scan_plugins(old_db, db)
local plugin_names = dfhack.internal.listPlugins()
for _,plugin in ipairs(plugin_names) do
local commands = dfhack.internal.listCommands(plugin)
if #commands == 0 then
-- use plugin name as the command so we have something to anchor the
-- documentation to
update_db(old_db, db,
has_rendered_help(plugin) and
HELP_SOURCES.RENDERED or HELP_SOURCES.STUB,
plugin, {entry_types={[ENTRY_TYPES.PLUGIN]=true}})
goto continue
end
for _,command in ipairs(commands) do
local entry_types = {[ENTRY_TYPES.COMMAND]=true}
if command == plugin then
entry_types[ENTRY_TYPES.PLUGIN]=true
end
update_db(old_db, db,
has_rendered_help(command) and
HELP_SOURCES.RENDERED or HELP_SOURCES.PLUGIN,
command, {entry_types=entry_types})
end
::continue::
end
end
-- scan for scripts and add their help to the db
local function scan_scripts(old_db, db)
local entry_types = {[ENTRY_TYPES.COMMAND]=true}
for _,script_path in ipairs(dfhack.internal.getScriptPaths()) do
local files = dfhack.filesystem.listdir_recursive(
script_path, nil, false)
if not files then goto skip_path end
for _,f in ipairs(files) do
if f.isdir or
(not f.path:endswith('.lua') and not f.path:endswith('.rb')) or
f.path:startswith('test/') or
f.path:startswith('internal/') then
goto continue
end
local dot_index = f.path:find('%.[^.]*$')
local entry_name = f.path:sub(1, dot_index - 1)
local script_source = script_path .. '/' .. f.path
update_db(old_db, db,
has_rendered_help(entry_name) and
HELP_SOURCES.RENDERED or HELP_SOURCES.SCRIPT,
entry_name,
{entry_types=entry_types, script_source=script_source})
::continue::
end
::skip_path::
end
end
-- read tags and descriptions from the TAG_DEFINITIONS file and add them all
-- to tag_index, initizlizing each entry with an empty list.
local function initialize_tags()
local tag, desc, in_desc = nil, nil, false
local ok, lines = pcall(io.lines, TAG_DEFINITIONS)
if not ok then return end
for line in lines do
if in_desc then
line = line:trim()
if #line == 0 then
in_desc = false
goto continue
end
desc = desc .. ' ' .. line
tag_index[tag].description = desc
else
_,_,tag,desc = line:find('^%* (%w+): (.+)')
if not tag then goto continue end
tag_index[tag] = {description=desc}
in_desc = true
end
::continue::
end
end
-- ensures the db is up to date by scanning all help sources. does not do
-- anything if it has already been run within the last 60 seconds.
last_refresh_ms = last_refresh_ms or 0
local function ensure_db()
local now_ms = dfhack.getTickCount()
if now_ms - last_refresh_ms < 60000 then return end
last_refresh_ms = now_ms
local old_db = db
db, tag_index = {}, {}
initialize_tags()
scan_builtins(old_db, db)
scan_plugins(old_db, db)
scan_scripts(old_db, db)
end
---------------------------------------------------------------------------
-- get API
---------------------------------------------------------------------------
-- converts strings into single-element lists containing that string
local function normalize_string_list(l)
if not l or #l == 0 then return nil end
if type(l) == 'string' then
return {l}
end
return l
end
local function has_keys(str, dict)
if not str or #str == 0 then
return false
end
ensure_db()
for _,s in ipairs(normalize_string_list(str)) do
if not dict[s] then
return false
end
end
return true
end
-- returns whether the given string (or list of strings) is an entry in the db
function is_entry(str)
return has_keys(str, db)
end
local function get_db_property(entry_name, property)
ensure_db()
if not db[entry_name] then
error(('helpdb entry not found: "%s"'):format(entry_name))
end
return db[entry_name][property]
end
-- returns the ~54 char summary blurb associated with the entry
function get_entry_short_help(entry)
return get_db_property(entry, 'short_help')
end
-- returns the full help documentation associated with the entry
function get_entry_long_help(entry)
return get_db_property(entry, 'long_help')
end
local function set_to_sorted_list(set)
local list = {}
for item in pairs(set) do
table.insert(list, item)
end
table.sort(list)
return list
end
-- returns the list of tags associated with the entry, in alphabetical order
function get_entry_tags(entry)
return set_to_sorted_list(get_db_property(entry, 'tags'))
end
-- returns whether the given string (or list of strings) matches a tag name
function is_tag(str)
return has_keys(str, tag_index)
end
-- returns the defined tags in alphabetical order
function get_tags()
ensure_db()
return set_to_sorted_list(tag_index)
end
-- returns the description associated with the given tag
function get_tag_description(tag)
ensure_db()
if not tag_index[tag] then
error('invalid tag: ' .. tag)
end
return tag_index[tag].description
end
---------------------------------------------------------------------------
-- search API
---------------------------------------------------------------------------
-- returns a list of path elements in reverse order
local function chunk_for_sorting(str)
local parts = str:split('/')
local chunks = {}
for i=1,#parts do
chunks[#parts - i + 1] = parts[i]
end
return chunks
end
-- sorts by last path component, then by parent path components.
-- something comes before nothing.
-- e.g. gui/autofarm comes immediately before autofarm
local function sort_by_basename(a, b)
local a = chunk_for_sorting(a)
local b = chunk_for_sorting(b)
local i = 1
while a[i] do
if not b[i] then
return true
end
if a[i] ~= b[i] then
return a[i] < b[i]
end
i = i + 1
end
return false
end
local function matches(entry_name, filter)
local db_entry = db[entry_name]
if filter.tag then
local matched = false
for _,tag in ipairs(filter.tag) do
if db_entry.tags[tag] then
matched = true
break
end
end
if not matched then
return false
end
end
if filter.types then
local matched = false
for _,etype in ipairs(filter.types) do
if db_entry.entry_types[etype] then
matched = true
break
end
end
if not matched then
return false
end
end
if filter.str then
local matched = false
for _,str in ipairs(filter.str) do
if entry_name:find(str, 1, true) then
matched = true
break
end
end
if not matched then
return false
end
end
return true
end
-- normalizes the lists in the filter and returns nil if no filter elements are
-- populated
local function normalize_filter(f)
if not f then return nil end
local filter = {}
filter.str = normalize_string_list(f.str)
filter.tag = normalize_string_list(f.tag)
filter.types = normalize_string_list(f.types)
if not filter.str and not filter.tag and not filter.types then
return nil
end
return filter
end
-- returns a list of entry names, alphabetized by their last path component,
-- with populated path components coming before null path components (e.g.
-- autobutcher will immediately follow gui/autobutcher).
-- the optional include and exclude filter params are maps with the following
-- elements:
-- str - if a string, filters by the given substring. if a table of strings,
-- includes entry names that match any of the given substrings.
-- tag - if a string, filters by the given tag name. if a table of strings,
-- includes entries that match any of the given tags.
-- types - if a string, matches entries of the given type. if a table of
-- strings, includes entries that match any of the given types. valid
-- types are: "builtin", "plugin", "command". note that many plugin
-- commands have the same name as the plugin, so those entries will
-- match both "plugin" and "command" types.
function search_entries(include, exclude)
ensure_db()
include = normalize_filter(include)
exclude = normalize_filter(exclude)
local entries = {}
for entry in pairs(db) do
if (not include or matches(entry, include)) and
(not exclude or not matches(entry, exclude)) then
table.insert(entries, entry)
end
end
table.sort(entries, sort_by_basename)
return entries
end
-- returns a list of all commands. used by Core's autocomplete functionality.
function get_commands()
local include = {types={ENTRY_TYPES.COMMAND}}
return search_entries(include)
end
function is_builtin(command)
ensure_db()
return db[command] and db[command].entry_types[ENTRY_TYPES.BUILTIN]
end
---------------------------------------------------------------------------
-- print API (outputs to console)
---------------------------------------------------------------------------
-- implements the 'help' builtin command
function help(entry)
ensure_db()
if not db[entry] then
dfhack.printerr(('No help entry found for "%s"'):format(entry))
return
end
print(get_entry_long_help(entry))
end
local function get_max_width(list, min_width)
local width = min_width or 0
for _,item in ipairs(list) do
width = math.max(width, #item)
end
return width
end
-- implements the 'tags' builtin command
function tags()
local tags = get_tags()
local width = get_max_width(tags, 10)
for _,tag in ipairs(tags) do
print((' %-'..width..'s %s'):format(tag, get_tag_description(tag)))
end
end
-- prints the requested entries to the console. include and exclude filters are
-- defined as in search_entries() above.
function list_entries(skip_tags, include, exclude)
local entries = search_entries(include, exclude)
local width = get_max_width(entries, 10)
for _,entry in ipairs(entries) do
print((' %-'..width..'s %s'):format(
entry, get_entry_short_help(entry)))
if not skip_tags then
local tags = get_entry_tags(entry)
if #tags > 0 then
print((' tags: %s'):format(table.concat(tags, ', ')))
end
end
end
if #entries == 0 then
print('No matches.')
end
end
-- wraps the list_entries() API to provide a more convenient interface for Core
-- to implement the 'ls' builtin command.
-- filter_str - if a tag name, will filter by that tag. otherwise, will filter
-- as a substring
-- skip_tags - whether to skip printing tag info
-- show_dev_commands - if true, will include scripts in the modtools/ and
-- devel/ directories. otherwise those scripts will be
-- excluded
function ls(filter_str, skip_tags, show_dev_commands)
local include = {types={ENTRY_TYPES.COMMAND}}
if is_tag(filter_str) then
include.tag = filter_str
else
include.str = filter_str
end
list_entries(skip_tags, include,
show_dev_commands and {} or {str={'modtools/', 'devel/'}})
end
return _ENV