--- Cloze uses [LDoc](https://github.com/stevedonovan/ldoc) for the
-- source code documentation. The supported tags are described on in
-- the [wiki](https://github.com/stevedonovan/LDoc/wiki).
--
--
Naming conventions
--
-- * _Variable_ names for _nodes_ are suffixed with `_node`, for example
-- `head_node`.
-- * _Variable_ names for _lengths_ (dimensions) are suffixed with
-- `_length`, for example `width`.
--
-- @module cloze
-- luacheck: globals node tex modules luatexbase callback
-- __cloze.lua__
-- __Initialisation of the function tables__
-- It is good form to provide some background informations about this Lua
-- module.
if not modules then modules = { } end modules ['cloze'] = {
version = '1.6',
comment = 'cloze',
author = 'Josef Friedrich, R.-M. Huber',
copyright = 'Josef Friedrich, R.-M. Huber',
license = 'The LaTeX Project Public License Version 1.3c 2008-05-04'
}
--- `nodex` is a abbreviation for __node eXtended__.
local nodex = {}
--- All values and functions, which are related to the option management,
-- are stored in a table called `registry`.
local registry = {}
--- I didn't know what value I should take as `user_id`. Therefore I
-- took my birthday and transformed it to a large number.
registry.user_id = 3121978
registry.storage = {}
registry.defaults = {
['align'] = 'l',
['boxheight'] = false,
['boxwidth'] = '\\linewidth',
['distance'] = '1.5pt',
['hide'] = false,
['linecolor'] = '0 0 0 rg 0 0 0 RG', -- black
['linecolor_name'] = 'black',
['margin'] = '3pt',
['resetcolor'] = '0 0 0 rg 0 0 0 RG', -- black
['resetcolor_name'] = 'black',
['show_text'] = true,
['show'] = true,
['spacing'] = '1.6',
['textcolor'] = '0 0 1 rg 0 0 1 RG', -- blue
['textcolor_name'] = 'blue', -- blue
['thickness'] = '0.4pt',
['width'] = '2cm',
}
registry.global_options = {}
registry.local_options = {}
-- The `base` table contains some basic functions. `base` is the only
-- table of this Lua module that will be exported.
local base = {}
base.is_registered = {}
--- Node precessing (nodex)
-- @section nodex
-- All functions in this section are stored in a table called `nodex`.
-- `nodex` is a abbreviation for __node eXtended__. The `nodex` table
-- bundles all functions, which extend the built-in `node` library.
-- __Color handling (color)__
-- __create_colorstack__
-- Create a whatsit node of the subtype `pdf_colorstack`. `data` is a PDF
-- colorstack string like `0 0 0 rg 0 0 0 RG`.
function nodex.create_colorstack(data)
if not data then
data = '0 0 0 rg 0 0 0 RG' -- black
end
local whatsit = node.new('whatsit', 'pdf_colorstack')
whatsit.stack = 0
whatsit.data = data
return whatsit
end
---
-- `nodex.create_color()` is a wrapper for the function
-- `nodex.create_colorstack()`. It queries the current values of the
-- options `linecolor` and `textcolor`. The argument `option` accepts the
-- strings `line`, `text` and `reset`.
function nodex.create_color(option)
local data
if option == 'line' then
data = registry.get_value('linecolor')
elseif option == 'text' then
data = registry.get_value('textcolor')
elseif option == 'reset' then
data = nil
else
data = nil
end
return nodex.create_colorstack(data)
end
-- __Line handling (line)__
--- Create a rule node, which is used as a line for the cloze texts. The
-- `depth` and the `height` of the rule are calculated form the options
-- `thickness` and `distance`. The argument `width` must have the length
-- unit __scaled points__.
function nodex.create_line(width)
local rule = node.new(node.id('rule'))
local thickness = tex.sp(registry.get_value('thickness'))
local distance = tex.sp(registry.get_value('distance'))
rule.depth = distance + thickness
rule.height = - distance
rule.width = width
return rule
end
--- Insert a `list` of nodes after or before the `current`. The `head`
-- argument is optional. In some edge cases it is unfortately necessary.
-- if `head` is omitted the `current` node is used. The argument
-- `position` can take the values `'after'` or `'before'`.
function nodex.insert_list(position, current, list, head_node)
if not head_node then
head_node = current
end
for _, insert in ipairs(list) do
if position == 'after' then
head_node, current = node.insert_after(head_node, current, insert)
elseif position == 'before' then
head_node, current = node.insert_before(head_node, current, insert)
end
end
return current
end
--- Enclose a rule node (cloze line) with two PDF colorstack whatsits.
-- The first colorstack node dyes the line, the seccond resets the
-- color.
--
-- __Node list__
--
--
--
--
-- `color_line_node` |
-- `whatsit` |
-- `pdf_colorstack` |
-- Line color |
--
--
--
--
-- `line_node` |
-- `rule` |
-- |
-- `width` |
--
--
-- `color_reset_node` |
-- `whatsit` |
-- `pdf_colorstack` |
-- Reset color |
--
--
--
function nodex.insert_line(current, width)
return nodex.insert_list(
'after',
current,
{
nodex.create_color('line'),
nodex.create_line(width),
nodex.create_color('reset')
}
)
end
--- This function enclozes a rule node with color nodes as it the function
-- `nodex.insert_line` does. In contrast to `nodex.insert_line` the three
-- nodes are appended to \TeX’s ‘current list’. They are not inserted in
-- a node list, which is accessed by a Lua callback.
--
-- __Node list__
--
--
--
--
-- - |
-- `whatsit` |
-- `pdf_colorstack` |
-- Line color |
--
--
--
--
-- - |
-- `rule` |
-- |
-- `width` |
--
--
-- - |
-- `whatsit` |
-- `pdf_colorstack` |
-- Reset color |
--
--
--
function nodex.write_line()
node.write(nodex.create_color('line'))
node.write(nodex.create_line(tex.sp(registry.get_value('width'))))
node.write(nodex.create_color('reset'))
end
-- __Handling of extendable lines (linefil)__
--- This function creates a line which stretchs indefinitely in the
-- horizontal direction.
function nodex.create_linefil()
local glue = node.new('glue')
glue.subtype = 100
glue.stretch = 65536
glue.stretch_order = 3
local rule = nodex.create_line(0)
rule.dir = 'TLT'
glue.leader = rule
return glue
end
--- The function `nodex.write_linefil` surrounds a indefinitely strechable
-- line with color whatsits and puts it to \TeX’s ‘current (node) list’.
function nodex.write_linefil()
node.write(nodex.create_color('line'))
node.write(nodex.create_linefil())
node.write(nodex.create_color('reset'))
end
-- __Kern handling (kern)__
--- This function creates a kern node with a given width. The argument
-- `width` had to be specified in scaled points.
local function create_kern_node(width)
local kern_node = node.new(node.id('kern'))
kern_node.kern = width
return kern_node
end
--- Add at the beginning of each `hlist` node list a strut (a invisible
-- character).
--
-- Now we can add line, color etc. nodes after the first node of a hlist
-- not before - after is much more easier.
--
-- @tparam node hlist_node
--
-- @treturn node hlist_node
-- @treturn node strut_node
-- @treturn node prev_head_node
local function insert_strut_into_hlist(hlist_node)
local prev_head_node = hlist_node.head
local kern_node = create_kern_node(0)
local strut_node = node.insert_before(hlist_node.head, prev_head_node, kern_node)
hlist_node.head = prev_head_node.prev
return hlist_node, strut_node, prev_head_node
end
--- Write kern nodes to the current node list. This kern nodes can be used
-- to build a margin.
function nodex.write_margin()
local kern = create_kern_node(tex.sp(registry.get_value('margin')))
node.write(kern)
end
--- Search for a `hlist` (subtype `line`) and nsert a strut node into
-- the list if a hlist is found.
--
-- @tparam node head_node The head of a node list.
--
-- @treturn node hlist_node
-- @treturn node strut_node
-- @treturn node prev_head_node
local function search_hlist(head_node)
while head_node do
if head_node.id == node.id('hlist') and head_node.subtype == 1 then
return insert_strut_into_hlist(head_node)
end
head_node = head_node.next
end
end
--- Option handling.
--
-- The table `registry` bundels functions that deal with option handling.
--
-- Marker processing (marker)
--
-- A marker is a whatsit node of the subtype `user_defined`. A marker has
-- two purposes:
--
-- * Mark the begin and the end of a gap.
-- * Store a index number, that points to a Lua table, which holds
-- some additional data like the local options.
-- @section registry
--- We create a user defined whatsit node that can store a number (type
-- = 100).
--
-- In order to distinguish this node from other user defined whatsit
-- nodes we set the `user_id` to a large number. We call this whatsit
-- node a marker. The argument `index` is a number, which is associated
-- to values in the `registry.storage` table.
function registry.create_marker(index)
local marker = node.new('whatsit','user_defined')
marker.type = 100 -- number
marker.user_id = registry.user_id
marker.value = index
return marker
end
--- Write a marker node to TeX's current node list.
--
-- The argument `mode` accepts the string values `basic`, `fix` and
-- `par`. The argument `position`. The argument `position` is either set
-- to `start` or to `stop`.
function registry.write_marker(mode, position)
local index = registry.set_storage(mode, position)
local marker = registry.create_marker(index)
node.write(marker)
end
--- This functions checks if the given node `item` is a marker.
function registry.is_marker(item)
if item.id == node.id('whatsit')
and item.subtype == node.subtype('user_defined')
and item.user_id == registry.user_id then
return true
else
return false
end
end
--- This functions tests, whether the given node `item` is a marker.
--
-- The argument `item` is a node. The argument `mode` accepts the string
-- values `basic`, `fix` and `par`. The argument `position` is either
-- set to `start` or to `stop`.
function registry.check_marker(item, mode, position)
local data = registry.get_marker_data(item)
if data and data.mode == mode and data.position == position then
return true
else
return false
end
end
--- `registry.get_marker` returns the given marker.
--
-- The argument `item` is a node. The argument `mode` accepts the string
-- values `basic`, `fix` and `par`. The argument `position` is either
-- set to `start` or to `stop`.
function registry.get_marker(item, mode, position)
local out
if registry.check_marker(item, mode, position) then
out = item
else
out = false
end
if out and position == 'start' then
registry.get_marker_values(item)
end
return out
end
--- `registry.get_marker_data` tests whether the node `item` is a
-- marker.
--
-- The argument `item` is a node of unspecified type.
function registry.get_marker_data(item)
if item.id == node.id('whatsit')
and item.subtype == node.subtype('user_defined')
and item.user_id == registry.user_id then
return registry.get_storage(item.value)
else
return false
end
end
--- First this function saves the associatied values of a marker to the
-- local options table. Second it returns this values. The argument
-- `marker` is a whatsit node.
function registry.get_marker_values(marker)
local data = registry.get_marker_data(marker)
registry.local_options = data.values
return data.values
end
--- This function removes a given whatsit marker.
--
-- It only deletes a node, if a marker is given.
--
-- @treturn node head
-- @treturn node current
function registry.remove_marker(marker)
if registry.is_marker(marker) then
return node.remove(marker, marker)
end
end
-- __Storage functions (storage)__
--- `registry.index` is a counter. The functions `registry.get_index()`
-- increases the counter by one and then returns it.
function registry.get_index()
if not registry.index then
registry.index = 0
end
registry.index = registry.index + 1
return registry.index
end
--- `registry.set_storage()` stores the local options in the Lua table
-- `registry.storage`.
--
-- It returns a numeric index number. This index number is the key,
-- where the local options in the Lua table are stored. The argument
-- `mode` accepts the string values `basic`, `fix` and `par`.
function registry.set_storage(mode, position)
local index = registry.get_index()
local data = {
['mode'] = mode,
['position'] = position
}
data.values = registry.local_options
registry.storage[index] = data
return index
end
--- The function `registry.get_storage()` retrieves values which belong
-- to a whatsit marker.
--
-- The argument `index` is a numeric value.
function registry.get_storage(index)
return registry.storage[index]
end
-- __Option processing (option)__
--- This function stores a value `value` and his associated key `key`
-- either to the global (`registry.global_options`) or to the local
-- (`registry.local_options`) option table.
--
-- The global boolean variable `registry.local_options` controls in
-- which table the values are stored.
function registry.set_option(key, value)
if value == '' or value == '\\color@ ' then
return false
end
if registry.is_global == true then
registry.global_options[key] = value
else
registry.local_options[key] = value
end
end
--- `registry.set_is_global()` sets the variable `registry.is_global` to
-- the value `value`. It is intended, that the variable takes boolean
-- values.
function registry.set_is_global(value)
registry.is_global = value
end
--- This function unsets the local options.
function registry.unset_local_options()
registry.local_options = {}
end
--- `registry.unset_global_options` empties the global options storage.
function registry.unset_global_options()
registry.global_options = {}
end
--- Retrieve a value from a given key. First search for the value in the
-- local options, then in the global options. If both option storages are
-- empty, the default value will be returned.
function registry.get_value(key)
if registry.has_value(registry.local_options[key]) then
return registry.local_options[key]
end
if registry.has_value(registry.global_options[key]) then
return registry.global_options[key]
end
return registry.defaults[key]
end
--- The function `registry.get_value_show()` returns the boolean value
-- `true` if the option `show` is true. In contrast to the function
-- `registry.get_value()` it converts the string value `true' to a
-- boolean value.
function registry.get_value_show()
if
registry.get_value('show') == true
or
registry.get_value('show') == 'true'
then
return true
else
return false
end
end
--- This function tests whether the value `value` is not empty and has a
-- value.
function registry.has_value(value)
if value == nil or value == '' or value == '\\color@ ' then
return false
else
return true
end
end
--- `registry.get_defaults(option)` returns a the default value of the
-- given option.
function registry.get_defaults(option)
return registry.defaults[option]
end
--- Assembly to cloze texts.
-- @section cloze_functions
--- Assemble a possibly muliline cloze.
--
-- The corresponding LaTeX command to this Lua function is `\cloze`.
-- This function is used by other cloze TeX macros too: `\clozenol`,
-- `\clozefil`
--
-- @tparam node head_node_input The head of a node list.
--
-- @treturn node The head of the node list.
local function make_basic(head_node_input)
-- This local variables are overloaded by function who
-- call each other.
local continue_cloze, search_stop
--- The function `make_single()` makes one gap. The argument
-- `start_node` is the node where the gap begins. The argument
-- `stop_node` is the node where the gap ends.
--
-- @tparam node start_node The node to start / begin a new cloze.
-- @tparam node stop_node The node to stop / end a new cloze.
-- @tparam node parent_node The parent node (hlist) of the start and
-- the stop node.
--
-- @treturn node stop_node The stop node.
-- @treturn parent_node The parent node (hlist) of the stop node.
local function make_single(start_node, stop_node, parent_node)
local node_head = start_node
local line_width = node.dimensions(
parent_node.glue_set,
parent_node.glue_sign,
parent_node.glue_order,
start_node,
stop_node
)
local line_node = nodex.insert_line(start_node, line_width)
local color_text_node = nodex.insert_list('after', line_node, {nodex.create_color('text')})
if registry.get_value_show() then
nodex.insert_list('after', color_text_node, {create_kern_node(-line_width)})
nodex.insert_list('before', stop_node, {nodex.create_color('reset')}, node_head)
else
line_node.next = stop_node.next
stop_node.prev = line_node -- not line_node.prev -> line color leaks out
end
-- In some edge cases the lua callbacks get fired up twice. After the
-- cloze has been created, the start and stop whatsit markers can be
-- deleted.
registry.remove_marker(start_node)
return registry.remove_marker(stop_node), parent_node
end
--- Search for a stop marker or make a cloze up to the end of the node
-- list.
--
-- @tparam node start_node The node to start a new cloze.
-- @tparam node parent_node The parent node (hlist) of the start node.
--
-- @treturn head_node The fast forwarded new head of the node list.
-- @treturn parent_node The parent node (hlist) of the head node.
function search_stop(start_node, parent_node)
local head_node = start_node
local last_node
while head_node do
if registry.check_marker(head_node, 'basic', 'stop') then
return make_single(start_node, head_node, parent_node)
end
last_node = head_node
head_node = head_node.next
end
-- Make a cloze until the end of the node list.
head_node = make_single(start_node, last_node, parent_node)
if parent_node.next then
return continue_cloze(parent_node.next)
else
return head_node, parent_node
end
end
--- Continue a multiline cloze.
--
-- @tparam node parent_node A parent node to search for a hlist node.
--
-- @treturn head_node The fast forwarded new head of the node list.
-- @treturn parent_node The parent node (hlist) of the head node.
function continue_cloze(parent_node)
local hlist_node = search_hlist(parent_node)
if hlist_node then
local start_node = hlist_node.head
return search_stop(start_node, hlist_node)
end
end
--- Search for a start marker.
--
-- @tparam node head_node The head of a node list.
-- @tparam node parent_node The parent node (hlist) of the head node.
local function search_start(head_node, parent_node)
while head_node do
if head_node.head then
search_start(head_node.head, head_node)
elseif registry.check_marker(head_node, 'basic', 'start') and
parent_node and
parent_node.id == node.id('hlist') then
-- Adds also a strut at the first position. It prepars the
-- hlist and makes it ready to build a cloze.
search_hlist(parent_node)
head_node, parent_node = search_stop(head_node, parent_node)
end
if head_node then
head_node = head_node.next
else
break
end
end
end
search_start(head_node_input)
return head_node_input
end
--- The corresponding LaTeX command to this Lua function is `\clozefix`.
--
-- @tparam node head_node_input The head of a node list.
local function make_fix(head_node_input)
--- Calculate the length of the whitespace before (`kern_start_length`) and
-- after (`kern_stop_length`) the text.
local function calculate_length(start, stop)
local width, kern_start_length, kern_stop_length, text_width, half_length, align
width = tex.sp(registry.get_value('width'))
text_width = node.dimensions(start, stop)
align = registry.get_value('align')
if align == 'right' then
kern_start_length = - text_width
kern_stop_length = 0
elseif align == 'center' then
half_length = (width - text_width) / 2
kern_start_length = - half_length - text_width
kern_stop_length = half_length
else
kern_start_length = - width
kern_stop_length = width - text_width
end
return width, kern_start_length, kern_stop_length
end
--- The function `make_single` generates a gap of fixed width.
--
-- __Node lists__
--
-- __Show text:__
--
--
--
--
-- `start_node` |
-- `whatsit` |
-- `user_definded` |
-- `index` |
--
--
-- `line_node` |
-- `rule` |
-- |
-- `width` |
--
--
-- `kern_start_node` |
-- `kern` |
-- & Depends on `align` |
-- |
--
--
-- `color_text_node` |
-- `whatsit` |
-- `pdf_colorstack` |
-- Text color |
--
--
-- |
-- `glyphs` |
-- & Text to show |
-- |
--
--
-- `color_reset_node` |
-- `whatsit` |
-- `pdf_colorstack` |
-- Reset color |
--
--
-- `kern_stop_node` |
-- `kern` |
-- & Depends on `align` |
-- |
--
--
-- `stop_node` |
-- `whatsit` |
-- `user_definded` |
-- `index` |
--
--
--
--
-- __Hide text:__
--
--
--
--
-- `start_node` |
-- `whatsit` |
-- `user_definded` |
-- `index` |
--
--
--
--
-- `line_node` |
-- `rule` |
-- |
-- `width` |
--
--
-- `stop_node` |
-- `whatsit` |
-- `user_definded` |
-- `index` |
--
--
--
--
-- Make fixed size cloze.
--
-- @param start The node, where the gap begins
-- @param stop The node, where the gap ends
local function make_single(start, stop)
local width, kern_start_length, kern_stop_length, line_node
width, kern_start_length, kern_stop_length = calculate_length(start, stop)
line_node = nodex.insert_line(start, width)
if registry.get_value_show() then
nodex.insert_list(
'after',
line_node,
{
create_kern_node(kern_start_length),
nodex.create_color('text')
}
)
nodex.insert_list(
'before',
stop,
{
nodex.create_color('reset'),
create_kern_node(kern_stop_length)
},
start
)
else
line_node.next = stop.next
end
registry.remove_marker(start)
registry.remove_marker(stop)
end
--- Function to recurse the node list and search after marker.
--
-- @tparam node head_node The head of a node list.
local function make_fix_recursion(head_node)
local start_node, stop_node = false, false
while head_node do
if head_node.head then
make_fix_recursion(head_node.head)
else
if not start_node then
start_node = registry.get_marker(head_node, 'fix', 'start')
end
if not stop_node then
stop_node = registry.get_marker(head_node, 'fix', 'stop')
end
if start_node and stop_node then
make_single(start_node, stop_node)
start_node, stop_node = false, false
end
end
head_node = head_node.next
end
end
make_fix_recursion(head_node_input)
return head_node_input
end
--- The corresponding LaTeX environment to this lua function is
-- `clozepar`.
--
-- __Node lists__
--
-- __Show text:__
--
--
--
--
-- `strut_node` |
-- `kern` |
-- |
-- width = 0 |
--
--
--
--
-- `line_node` |
-- `rule` |
-- |
-- `width` (Width from hlist) |
--
--
-- `kern_node` |
-- `kern` |
-- |
-- `-width` |
--
--
-- `color_text_node` |
-- `whatsit` |
-- `pdf_colorstack` |
-- Text color |
--
--
-- |
-- `glyphs` |
-- |
-- Text to show |
--
--
-- `tail_node` |
-- `glyph` |
-- |
-- Last glyph in hlist |
--
--
-- `color_reset_node` |
-- `whatsit` |
-- `pdf_colorstack` |
-- Reset color |
--
--
--
--
-- __Hide text:__
--
--
--
--
-- `strut_node` |
-- `kern` |
-- |
-- width = 0 |
--
--
--
--
-- `line_node` |
-- `rule` |
-- |
-- `width` (Width from hlist) |
--
--
--
--
-- @tparam node head_node The head of a node list.
local function make_par(head_node)
local strut_node, line_node, width
for hlist_node in node.traverse_id(node.id('hlist'), head_node) do
for whatsit in node.traverse_id(node.id('whatsit'), hlist_node.head) do
registry.get_marker(whatsit, 'par', 'start')
end
width = hlist_node.width
hlist_node, strut_node, _ = insert_strut_into_hlist(hlist_node)
line_node = nodex.insert_line(strut_node, width)
if registry.get_value_show() then
nodex.insert_list(
'after',
line_node,
{
create_kern_node(-width),
nodex.create_color('text')
}
)
nodex.insert_list(
'after',
node.tail(head_node),
{nodex.create_color('reset')}
)
else
line_node.next = nil
end
end
return head_node
end
---
-- @tparam string callback_name The name of a callback
-- @tparam function func A function to register for the callback
-- @tparam string description Only used in LuaLatex
local function register_callback(callback_name, func, description)
if luatexbase then
luatexbase.add_to_callback(
callback_name,
func,
description
)
else
callback.register(callback_name, func)
end
end
---
-- @tparam string callback_name The name of a callback
-- @tparam string description Only used in LuaLatex
local function unregister_callback(callback_name, description)
if luatexbase then
luatexbase.remove_from_callback(
callback_name,
description
)
else
callback.register(callback_name, nil)
end
end
--- Basic module functions.
-- The `base` table contains functions which are published to the
-- `cloze.sty` file.
-- @section base
--- This function registers the functions `make_par`, `make_basic` and
-- `make_fix` the Lua callbacks.
--
-- `make_par` and `make_basic` are registered to the callback
-- `post_linebreak_filter` and `make_fix` to the callback
-- `pre_linebreak_filter`. The argument `mode` accepts the string values
-- `basic`, `fix` and `par`. A special treatment is needed for clozes in
-- display math mode. The `post_linebreak_filter` is not called on
-- display math formulas. I’m not sure if the `pre_output_filter` is the
-- right choice to capture the display math formulas.
function base.register(mode)
if mode == 'par' then
register_callback(
'post_linebreak_filter',
make_par,
mode
)
return true
end
if not base.is_registered[mode] then
if mode == 'basic' then
register_callback(
'post_linebreak_filter',
make_basic,
mode
)
register_callback(
'pre_output_filter',
make_basic,
mode
)
elseif mode == 'fix' then
register_callback(
'pre_linebreak_filter',
make_fix,
mode
)
else
return false
end
base.is_registered[mode] = true
end
end
--- `base.unregister(mode)` deletes the registered functions from the
-- Lua callbacks.
--
-- @tparam string mode The argument `mode` accepts the string values
-- `basic`, `fix` and `par`.
function base.unregister(mode)
if mode == 'basic' then
unregister_callback('post_linebreak_filter', mode)
unregister_callback('pre_output_filter', mode)
elseif mode == 'fix' then
unregister_callback('pre_linebreak_filter', mode)
else
unregister_callback('post_linebreak_filter', mode)
end
end
-- Publish some functions to the `cloze.sty` file.
base.linefil = nodex.write_linefil
base.line = nodex.write_line
base.margin = nodex.write_margin
base.set_option = registry.set_option
base.set_is_global = registry.set_is_global
base.unset_local_options = registry.unset_local_options
base.reset = registry.unset_global_options
base.get_defaults = registry.get_defaults
base.get_value = registry.get_value
base.marker = registry.write_marker
return base