모듈:Jsonschema/store: 두 판 사이의 차이
(새 문서: local url = require 'net.url' local schar = string.char -- the net.url is kinda weird when some uri parts are missing (sometimes it is -- nil, sometimes it is an empty string) local function noe(s) return s == nil or s == '' end -- fetching and parsing external schemas requires a lot of dependencies, and -- depends a lot on the application ecosystem (e.g. piping curl, LuaSocket, -- cqueues, ...). Moreover, most sane schemas are self contained, so it is not -- even useful. --...) |
잔글편집 요약 없음 |
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1번째 줄: | 1번째 줄: | ||
local url = require 'net.url' | local url = require '모듈:Jsonschema/net.url' | ||
local schar = string.char | local schar = string.char | ||
2023년 7월 27일 (목) 11:21 기준 최신판
위 설명은 모듈:Jsonschema/store/설명문서의 내용을 가져와 보여주고 있습니다. (편집 | 역사) 이 모듈에 대한 수정 연습과 시험은 연습장 (만들기 | 미러)과 시험장 (만들기)에서 할 수 있습니다. 분류는 /설명문서에 넣어주세요. 이 모듈에 딸린 문서. |
local url = require '모듈:Jsonschema/net.url'
local schar = string.char
-- the net.url is kinda weird when some uri parts are missing (sometimes it is
-- nil, sometimes it is an empty string)
local function noe(s) return s == nil or s == '' end
-- fetching and parsing external schemas requires a lot of dependencies, and
-- depends a lot on the application ecosystem (e.g. piping curl, LuaSocket,
-- cqueues, ...). Moreover, most sane schemas are self contained, so it is not
-- even useful.
-- So it is up to the user to provide a resolver if it's really needed
local function default_resolver(uri)
error('an external resolver is required to fetch ' .. uri)
end
local function percent_unescape(x)
return schar(tonumber(x, 16))
end
local tilde_unescape = { ['~0']='~', ['~1']='/' }
local function urlunescape(fragment)
return fragment:gsub('%%(%x%x)', percent_unescape):gsub('~[01]', tilde_unescape)
end
-- attempt to translate a URI fragment part to a valid table index:
-- * if the part can be converted to number, that number+1 is returned to
-- compensate with Lua 1-based indices
-- * otherwise, the part is returned URL-escaped
local function decodepart(part)
local n = tonumber(part)
return n and (n+1) or urlunescape(part)
end
-- a reference points to a particular node of a particular schema in the store
local ref_mt = {}
ref_mt.__index = ref_mt
function ref_mt:child(items)
if not (items and items[1]) then return self end
local schema = self:resolve()
for _, node in ipairs(items) do
if schema[decodepart(node)] ~= nil then
schema = schema[decodepart(node)]
else
error("failed to find schema by node")
end
end
return setmetatable({ store=self.store, schema=schema }, ref_mt)
end
function ref_mt:resolve()
local schema = self.schema
if type(schema) ~= "table" then
return schema
end
-- resolve references
while schema['$ref'] do
-- ok, this is a ref, but what kind of ref?!?
local ctx = self.store:ctx(schema)
local ref = url.parse(ctx.base.id):resolve(schema['$ref'])
local fragment = ref.fragment
-- get the target schema
ref.fragment = nil
schema = self.store:fetch(tostring(ref:normalize()))
-- no fragment? just retrun the root
if not fragment then
return schema
end
-- maybe the fragment is a id alias
local by_id = self.store:ctx(ctx.base).map[fragment]
if by_id then
schema = by_id
else
-- maybe not after all, walk the schema
-- TODO: notrmalize path (if there is people mean enough to put '.' or
-- '..' components)
for part in fragment:gmatch('[^/]+') do
part = decodepart(part)
local new = schema[part]
-- TODO: add test case
if new == nil then
error(string.format('reference not found: %s#%s (at %q)',
ref, fragment, part))
end
schema = new
end
end
if type(schema) ~= "table" then
return schema
end
end
return schema
end
-- a store manage all currently required schemas
-- it is not exposed directly
local store_mt = {}
store_mt.__index = store_mt
function store_mt:ref(schema)
return setmetatable({
store = self,
schema = schema,
}, ref_mt)
end
-- store of additional metadata by schema table part, this is to avoid
-- modifying schema tables themselves. For now, we have
--
-- * `base`: refers to the base schema (e.g. for a nested subschema to find
-- its parent schema
-- * `map`: only for "root" schemas, maps indetifiers to subschemas
function store_mt:ctx(t)
local c = self.ctx_store[t]
if not c then
c = {}
self.ctx_store[t] = c
end
return c
end
function store_mt:fetch(uri)
local schema = self.schemas[uri]
if schema then return schema end
-- schema not yet known
schema = self.resolver(uri)
if not schema then
error('faild to fetch schema for: ' .. uri)
end
if not schema.id then
schema.id = uri
end
self:insert(schema)
return schema
end
-- functions used to walk a schema
local function is_schema(path)
local n = #path
local parent, grandparent = path[n], path[n-1]
return n == 0 or -- root node
parent == 'additionalItems' or
parent == 'additionalProperties' or
parent == 'items' or
parent == 'not' or
(type(parent) == 'number' and (
grandparent == 'items' or
grandparent == 'allOf' or
grandparent == 'anyOf' or
grandparent == 'oneOf'
)) or
grandparent == 'properties' or
grandparent == 'patternProperties' or
grandparent == 'definitions' or
grandparent == 'dependencies'
end
function store_mt:insert(schema)
local id = url.parse(assert(schema.id, 'id is required'))
assert(noe(id.fragment), 'schema ids should not have fragments')
schema.id = tostring(id:normalize())
self.schemas[schema.id] = schema
local base_id = id
-- walk the schema to collect the ids and populate the base field in context
local map = {}
local function walk(s, p)
-- handle '$id' keyword
if s['$id'] then
local u = url.parse(s['$id'])
if u.schema ~= nil or u.fragment == nil then
error("Only location independent id is supported. Unsupported $id: " .. s['$id'])
end
map[u.fragment] = self:ref(s).schema
end
local id = s.id
if id and s ~= schema and is_schema(p) then
-- there is an id, but it is not over: we have 2 different cases (!)
-- 1. the id is a fragment: it is some kind of an internal alias
-- 2. the id is an url (relative or absolute): resolve it using the
-- current base and use that as a new base.
if id:sub(1,1) == '#' then
-- fragment (case 1)
map[id.fragment] = self:ref(s)
else
-- relative url (case 2)
-- FIXME: I'm sure it's broken because resolution scopes could be
-- nested... but at the same time, who the hell would do this and it
-- passes the tests so ¯\_(ツ)_/¯
local resolved = base_id:resolve(id)
assert(noe(resolved.fragment), 'fragment in relative id')
s.id = tostring(resolved:normalize())
return self:insert(s)
end
end
self:ctx(s).base = schema
for k, v in pairs(s) do
if type(v) == 'table' and
(type(k) == 'number' or (
k ~= 'enum' and
k:sub(1,1) ~= '_'
))
then
table.insert(p, k)
walk(v, p)
table.remove(p)
end
end
end
walk(schema, {})
self:ctx(schema).map = map
return self:ref(schema)
end
local function new(schema, resolver)
local self = setmetatable({
ctx_store = {}, -- used to store metadata about schema parts
schemas = {},
resolver = resolver or default_resolver,
}, store_mt)
schema.id = schema.id or 'root:'
return self:insert(schema)
end
return {
new = new,
}