jgwill · November 13, 2022 01:43
diff --git a/json.lua b/json.lua
 --[[ json.lua

 A compact pure-Lua JSON library.
 The main functions are: json.stringify, json.parse.

 ## json.stringify:

 This expects the following to be true of any tables being encoded:
 * They only have string or number keys. Number keys must be represented as
   strings in json; this is part of the json spec.
 * They are not recursive. Such a structure cannot be specified in json.

 A Lua table is considered to be an array if and only if its set of keys is a
 consecutive sequence of positive integers starting at 1. Arrays are encoded like
 so: `[2, 3, false, "hi"]`. Any other type of Lua table is encoded as a json
 object, encoded like so: `{"key1": 2, "key2": false}`.

 Because the Lua nil value cannot be a key, and as a table value is considerd
 equivalent to a missing key, there is no way to express the json "null" value in
 a Lua table. The only way this will output "null" is if your entire input obj is
 nil itself.

 An empty Lua table, {}, could be considered either a json object or array -
 it's an ambiguous edge case. We choose to treat this as an object as it is the
 more general type.

 To be clear, none of the above considerations is a limitation of this code.
 Rather, it is what we get when we completely observe the json specification for
 as arbitrary a Lua object as json is capable of expressing.

 ## json.parse:

 This function parses json, with the exception that it does not pay attention to
 \u-escaped unicode code points in strings.

 It is difficult for Lua to return null as a value. In order to prevent the loss
 of keys with a null value in a json string, this function uses the one-off
 table value json.null (which is just an empty table) to indicate null values.
 This way you can check if a value is null with the conditional
 `val == json.null`.

 If you have control over the data and are using Lua, I would recommend just
 avoiding null values in your data to begin with.

 --]]


 local json = {}


 -- Internal functions.

 local function kind_of(obj)
  if type(obj) ~= 'table' then return type(obj) end
  local i = 1
  for _ in pairs(obj) do
    if obj[i] ~= nil then i = i + 1 else return 'table' end
  end
  if i == 1 then return 'table' else return 'array' end
 end

 local function escape_str(s)
  local in_char  = {'\\', '"', '/', '\b', '\f', '\n', '\r', '\t'}
  local out_char = {'\\', '"', '/',  'b',  'f',  'n',  'r',  't'}
  for i, c in ipairs(in_char) do
    s = s:gsub(c, '\\' .. out_char[i])
  end
  return s
 end

 -- Returns pos, did_find; there are two cases:
 -- 1. Delimiter found: pos = pos after leading space + delim; did_find = true.
 -- 2. Delimiter not found: pos = pos after leading space;     did_find = false.
 -- This throws an error if err_if_missing is true and the delim is not found.
 local function skip_delim(str, pos, delim, err_if_missing)
  pos = pos + #str:match('^%s*', pos)
  if str:sub(pos, pos) ~= delim then
    if err_if_missing then
      error('Expected ' .. delim .. ' near position ' .. pos)
    end
    return pos, false
  end
  return pos + 1, true
 end

 -- Expects the given pos to be the first character after the opening quote.
 -- Returns val, pos; the returned pos is after the closing quote character.
 local function parse_str_val(str, pos, val)
  val = val or ''
  local early_end_error = 'End of input found while parsing string.'
  if pos > #str then error(early_end_error) end
  local c = str:sub(pos, pos)
  if c == '"'  then return val, pos + 1 end
  if c ~= '\\' then return parse_str_val(str, pos + 1, val .. c) end
  -- We must have a \ character.
  local esc_map = {b = '\b', f = '\f', n = '\n', r = '\r', t = '\t'}
  local nextc = str:sub(pos + 1, pos + 1)
  if not nextc then error(early_end_error) end
  return parse_str_val(str, pos + 2, val .. (esc_map[nextc] or nextc))
 end

 -- Returns val, pos; the returned pos is after the number's final character.
 local function parse_num_val(str, pos)
  local num_str = str:match('^-?%d+%.?%d*[eE]?[+-]?%d*', pos)
  local val = tonumber(num_str)
  if not val then error('Error parsing number at position ' .. pos .. '.') end
  return val, pos + #num_str
 end


 -- Public values and functions.

 function json.stringify(obj, as_key)
  local s = {}  -- We'll build the string as an array of strings to be concatenated.
  local kind = kind_of(obj)  -- This is 'array' if it's an array or type(obj) otherwise.
  if kind == 'array' then
    if as_key then error('Can\'t encode array as key.') end
    s[#s + 1] = '['
    for i, val in ipairs(obj) do
      if i > 1 then s[#s + 1] = ', ' end
      s[#s + 1] = json.stringify(val)
    end
    s[#s + 1] = ']'
  elseif kind == 'table' then
    if as_key then error('Can\'t encode table as key.') end
    s[#s + 1] = '{'
    for k, v in pairs(obj) do
      if #s > 1 then s[#s + 1] = ', ' end
      s[#s + 1] = json.stringify(k, true)
      s[#s + 1] = ':'
      s[#s + 1] = json.stringify(v)
    end
    s[#s + 1] = '}'
  elseif kind == 'string' then
    return '"' .. escape_str(obj) .. '"'
  elseif kind == 'number' then
    if as_key then return '"' .. tostring(obj) .. '"' end
    return tostring(obj)
  elseif kind == 'boolean' then
    return tostring(obj)
  elseif kind == 'nil' then
    return 'null'
  else
    error('Unjsonifiable type: ' .. kind .. '.')
  end
  return table.concat(s)
 end

 json.null = {}  -- This is a one-off table to represent the null value.

 function json.parse(str, pos, end_delim)
  pos = pos or 1
  if pos > #str then error('Reached unexpected end of input.') end
  local pos = pos + #str:match('^%s*', pos)  -- Skip whitespace.
  local first = str:sub(pos, pos)
  if first == '{' then  -- Parse an object.
    local obj, key, delim_found = {}, true, true
    pos = pos + 1
    while true do
      key, pos = json.parse(str, pos, '}')
      if key == nil then return obj, pos end
      if not delim_found then error('Comma missing between object items.') end
      pos = skip_delim(str, pos, ':', true)  -- true -> error if missing.
      obj[key], pos = json.parse(str, pos)
      pos, delim_found = skip_delim(str, pos, ',')
    end
  elseif first == '[' then  -- Parse an array.
    local arr, val, delim_found = {}, true, true
    pos = pos + 1
    while true do
      val, pos = json.parse(str, pos, ']')
      if val == nil then return arr, pos end
      if not delim_found then error('Comma missing between array items.') end
      arr[#arr + 1] = val
      pos, delim_found = skip_delim(str, pos, ',')
    end
  elseif first == '"' then  -- Parse a string.
    return parse_str_val(str, pos + 1)
  elseif first == '-' or first:match('%d') then  -- Parse a number.
    return parse_num_val(str, pos)
  elseif first == end_delim then  -- End of an object or array.
    return nil, pos + 1
  else  -- Parse true, false, or null.
    local literals = {['true'] = true, ['false'] = false, ['null'] = json.null}
    for lit_str, lit_val in pairs(literals) do
      local lit_end = pos + #lit_str - 1
      if str:sub(pos, lit_end) == lit_str then return lit_val, lit_end + 1 end
    end
    local pos_info_str = 'position ' .. pos .. ': ' .. str:sub(pos, pos + 10)
    error('Invalid json syntax starting at ' .. pos_info_str)
  end
 end

 return json
	--[[ json.lua

	A compact pure-Lua JSON library.
	The main functions are: json.stringify, json.parse.

	## json.stringify:

	This expects the following to be true of any tables being encoded:
	* They only have string or number keys. Number keys must be represented as
	strings in json; this is part of the json spec.
	* They are not recursive. Such a structure cannot be specified in json.

	A Lua table is considered to be an array if and only if its set of keys is a
	consecutive sequence of positive integers starting at 1. Arrays are encoded like
	so: `[2, 3, false, "hi"]`. Any other type of Lua table is encoded as a json
	object, encoded like so: `{"key1": 2, "key2": false}`.

	Because the Lua nil value cannot be a key, and as a table value is considerd
	equivalent to a missing key, there is no way to express the json "null" value in
	a Lua table. The only way this will output "null" is if your entire input obj is
	nil itself.

	An empty Lua table, {}, could be considered either a json object or array -
	it's an ambiguous edge case. We choose to treat this as an object as it is the
	more general type.

	To be clear, none of the above considerations is a limitation of this code.
	Rather, it is what we get when we completely observe the json specification for
	as arbitrary a Lua object as json is capable of expressing.

	## json.parse:

	This function parses json, with the exception that it does not pay attention to
	\u-escaped unicode code points in strings.

	It is difficult for Lua to return null as a value. In order to prevent the loss
	of keys with a null value in a json string, this function uses the one-off
	table value json.null (which is just an empty table) to indicate null values.
	This way you can check if a value is null with the conditional
	`val == json.null`.

	If you have control over the data and are using Lua, I would recommend just
	avoiding null values in your data to begin with.

	--]]


	local json = {}


	-- Internal functions.

	local function kind_of(obj)
	if type(obj) ~= 'table' then return type(obj) end
	local i = 1
	for _ in pairs(obj) do
	if obj[i] ~= nil then i = i + 1 else return 'table' end
	end
	if i == 1 then return 'table' else return 'array' end
	end

	local function escape_str(s)
	local in_char = {'\\', '"', '/', '\b', '\f', '\n', '\r', '\t'}
	local out_char = {'\\', '"', '/', 'b', 'f', 'n', 'r', 't'}
	for i, c in ipairs(in_char) do
	s = s:gsub(c, '\\' .. out_char[i])
	end
	return s
	end

	-- Returns pos, did_find; there are two cases:
	-- 1. Delimiter found: pos = pos after leading space + delim; did_find = true.
	-- 2. Delimiter not found: pos = pos after leading space; did_find = false.
	-- This throws an error if err_if_missing is true and the delim is not found.
	local function skip_delim(str, pos, delim, err_if_missing)
	pos = pos + #str:match('^%s*', pos)
	if str:sub(pos, pos) ~= delim then
	if err_if_missing then
	error('Expected ' .. delim .. ' near position ' .. pos)
	end
	return pos, false
	end
	return pos + 1, true
	end

	-- Expects the given pos to be the first character after the opening quote.
	-- Returns val, pos; the returned pos is after the closing quote character.
	local function parse_str_val(str, pos, val)
	val = val or ''
	local early_end_error = 'End of input found while parsing string.'
	if pos > #str then error(early_end_error) end
	local c = str:sub(pos, pos)
	if c == '"' then return val, pos + 1 end
	if c ~= '\\' then return parse_str_val(str, pos + 1, val .. c) end
	-- We must have a \ character.
	local esc_map = {b = '\b', f = '\f', n = '\n', r = '\r', t = '\t'}
	local nextc = str:sub(pos + 1, pos + 1)
	if not nextc then error(early_end_error) end
	return parse_str_val(str, pos + 2, val .. (esc_map[nextc] or nextc))
	end

	-- Returns val, pos; the returned pos is after the number's final character.
	local function parse_num_val(str, pos)
	local num_str = str:match('^-?%d+%.?%d[eE]?[+-]?%d', pos)
	local val = tonumber(num_str)
	if not val then error('Error parsing number at position ' .. pos .. '.') end
	return val, pos + #num_str
	end


	-- Public values and functions.

	function json.stringify(obj, as_key)
	local s = {} -- We'll build the string as an array of strings to be concatenated.
	local kind = kind_of(obj) -- This is 'array' if it's an array or type(obj) otherwise.
	if kind == 'array' then
	if as_key then error('Can\'t encode array as key.') end
	s[#s + 1] = '['
	for i, val in ipairs(obj) do
	if i > 1 then s[#s + 1] = ', ' end
	s[#s + 1] = json.stringify(val)
	end
	s[#s + 1] = ']'
	elseif kind == 'table' then
	if as_key then error('Can\'t encode table as key.') end
	s[#s + 1] = '{'
	for k, v in pairs(obj) do
	if #s > 1 then s[#s + 1] = ', ' end
	s[#s + 1] = json.stringify(k, true)
	s[#s + 1] = ':'
	s[#s + 1] = json.stringify(v)
	end
	s[#s + 1] = '}'
	elseif kind == 'string' then
	return '"' .. escape_str(obj) .. '"'
	elseif kind == 'number' then
	if as_key then return '"' .. tostring(obj) .. '"' end
	return tostring(obj)
	elseif kind == 'boolean' then
	return tostring(obj)
	elseif kind == 'nil' then
	return 'null'
	else
	error('Unjsonifiable type: ' .. kind .. '.')
	end
	return table.concat(s)
	end

	json.null = {} -- This is a one-off table to represent the null value.

	function json.parse(str, pos, end_delim)
	pos = pos or 1
	if pos > #str then error('Reached unexpected end of input.') end
	local pos = pos + #str:match('^%s*', pos) -- Skip whitespace.
	local first = str:sub(pos, pos)
	if first == '{' then -- Parse an object.
	local obj, key, delim_found = {}, true, true
	pos = pos + 1
	while true do
	key, pos = json.parse(str, pos, '}')
	if key == nil then return obj, pos end
	if not delim_found then error('Comma missing between object items.') end
	pos = skip_delim(str, pos, ':', true) -- true -> error if missing.
	obj[key], pos = json.parse(str, pos)
	pos, delim_found = skip_delim(str, pos, ',')
	end
	elseif first == '[' then -- Parse an array.
	local arr, val, delim_found = {}, true, true
	pos = pos + 1
	while true do
	val, pos = json.parse(str, pos, ']')
	if val == nil then return arr, pos end
	if not delim_found then error('Comma missing between array items.') end
	arr[#arr + 1] = val
	pos, delim_found = skip_delim(str, pos, ',')
	end
	elseif first == '"' then -- Parse a string.
	return parse_str_val(str, pos + 1)
	elseif first == '-' or first:match('%d') then -- Parse a number.
	return parse_num_val(str, pos)
	elseif first == end_delim then -- End of an object or array.
	return nil, pos + 1
	else -- Parse true, false, or null.
	local literals = {['true'] = true, ['false'] = false, ['null'] = json.null}
	for lit_str, lit_val in pairs(literals) do
	local lit_end = pos + #lit_str - 1
	if str:sub(pos, lit_end) == lit_str then return lit_val, lit_end + 1 end
	end
	local pos_info_str = 'position ' .. pos .. ': ' .. str:sub(pos, pos + 10)
	error('Invalid json syntax starting at ' .. pos_info_str)
	end
	end

	return json