local subprocess = require 'bee.subprocess' local method = require 'method' local thread = require 'bee.thread' local async = require 'async' local rpc = require 'rpc' local parser = require 'parser' local matcher = require 'matcher' thread.newchannel 'proto' local ErrorCodes = { -- Defined by JSON RPC ParseError = -32700, InvalidRequest = -32600, MethodNotFound = -32601, InvalidParams = -32602, InternalError = -32603, serverErrorStart = -32099, serverErrorEnd = -32000, ServerNotInitialized = -32002, UnknownErrorCode = -32001, -- Defined by the protocol. RequestCancelled = -32800, } local mt = {} mt.__index = mt function mt:_callMethod(name, params) local optional if name:sub(1, 2) == '$/' then name = name:sub(3) optional = true end local f = method[name] if f then local clock = os.clock() local suc, res = xpcall(f, log.error, self, params) local passed = os.clock() - clock if passed > 0.1 then log.debug(('Task [%s] takes [%.3f]sec.'):format(name, passed)) end if suc then return res else local suc, res = pcall(table.dump, params) local dump = suc and res or 'Cyclic table' log.debug(('Task [%s] failed, params: %s'):format( name, dump )) return nil, { code = ErrorCodes.InternalError, message = res, } end end if optional then return nil else return nil, { code = ErrorCodes.MethodNotFound, message = 'MethodNotFound', } end end function mt:_doProto(proto) local id = proto.id local name = proto.method local params = proto.params local response, err = self:_callMethod(name, params) if not id then return end local container = table.container() if err then container.error = err else container.result = response end rpc:response(id, container) end function mt:_doDiagnostic() if not next(self._needDiagnostics) then return end local clock = os.clock() local count = 0 local copy = {} for uri in pairs(self._needDiagnostics) do self._needDiagnostics[uri] = nil count = count + 1 copy[uri] = true end for uri in pairs(copy) do local obj = self._file[uri] if obj and obj.vm then local data = { uri = uri, vm = obj.vm, lines = obj.lines, } local name = 'textDocument/publishDiagnostics' local res = self:_callMethod(name, data) if res then rpc:notify(name, { uri = uri, diagnostics = res, }) end end end local passed = os.clock() - clock if passed > 0.1 then log.debug(('\n\z Diagnostics completion\n\z Cost: [%.3f]sec\n\z Num: [%d]'):format( passed, count )) end end function mt:clearDiagnostics(uri) rpc:notify('textDocument/publishDiagnostics', { uri = uri, diagnostics = {}, }) end function mt:compileAll() if not next(self._needCompile) then return end local list = {} for i, uri in ipairs(self._needCompile) do list[i] = uri end local size = 0 local clock = os.clock() for _, uri in ipairs(list) do local obj = self:compileVM(uri) if obj then size = size + #obj.text end end local passed = os.clock() - clock if passed > 0.1 then log.debug(('\n\z Cache completion\n\z Cost: [%.3f]sec\n\z Num: [%d]\n\z Size: [%.3f]kb'):format( passed, #list, size / 1000 )) end end function mt:read(mode) if not self._input then return nil end return self._input(mode) end function mt:needCompile(uri, compiled) if self._needCompile[uri] then return end if not compiled then compiled = {} end if compiled[uri] then return end self._needCompile[uri] = compiled table.insert(self._needCompile, 1, uri) end function mt:saveText(uri, version, text) local obj = self._file[uri] if obj then if obj.version >= version then return end obj.version = version obj.text = text self:needCompile(uri) else self._file[uri] = { version = version, text = text, } self:needCompile(uri) end end function mt:readText(uri, path) local obj = self._file[uri] if obj then return end local text = io.load(path) if not text then return end self._file[uri] = { version = -1, text = text, } self:needCompile(uri) end function mt:open(uri) self._opening[uri] = true end function mt:close(uri) self._opening[uri] = nil end function mt:isOpen(uri) return self._opening[uri] == true end function mt:reCompile() local compiled = {} for uri in pairs(self._opening) do self:needCompile(uri, compiled) end end function mt:loadVM(uri) local obj = self._file[uri] if not obj then return nil end self:compileVM(uri) return obj.vm, obj.lines end function mt:compileVM(uri) local obj = self._file[uri] if not obj then return nil end if not self._needCompile[uri] then return nil end local compiled = self._needCompile[uri] if compiled then compiled[uri] = true self._needCompile[uri] = nil end for i, u in ipairs(self._needCompile) do if u == uri then table.remove(self._needCompile, i) break end end local ast = parser:ast(obj.text) -- 编译前清除节点信息 if obj.parent then for pUri in pairs(obj.parent) do local parent = self._file[pUri] if parent and parent.child then parent.child[uri] = nil end end end obj.vm = matcher.vm(ast, self, uri) obj.lines = parser:lines(obj.text, 'utf8') if not obj.vm then return obj end self._needDiagnostics[uri] = true if obj.child then if not compiled then compiled = {} end local list = {} for child in pairs(obj.child) do list[#list+1] = child end table.sort(list) for _, child in ipairs(list) do self:needCompile(child, compiled) end end return obj end function mt:getVM(uri) local obj = self._file[uri] if not obj then return nil end return obj.vm end function mt:compileChain(child, parent) local parentObj = self._file[parent] local childObj = self._file[child] if not parentObj or not childObj then return end if parentObj == childObj then return end if not parentObj.child then parentObj.child = {} end parentObj.child[child] = true if not childObj.parent then childObj.parent = {} end childObj.parent[parent] = true end function mt:removeText(uri) self._file[uri] = nil end function mt:onTick() while true do local ok, proto = self._proto:pop() if not ok then break end if proto.method then self:_doProto(proto) else rpc:recieve(proto) end end self:compileAll() self:_doDiagnostic() if os.clock() - self._clock >= 600 then self._clock = os.clock() local count = 0 for _ in pairs(self._file) do count = count + 1 end local mem = collectgarbage 'count' log.debug(('\n\z State\n\z Mem: [%.3f]kb\n\z Cache: [%d]'):format( mem, count )) end end function mt:listen() subprocess.filemode(io.stdin, 'b') subprocess.filemode(io.stdout, 'b') io.stdin:setvbuf 'no' io.stdout:setvbuf 'no' self._proto = thread.channel 'proto' async.call([[require 'proto']]) while true do async.onTick() self:onTick() thread.sleep(0.001) end end return function () local session = setmetatable({ _file = {}, _needCompile = {}, _needDiagnostics = {}, _opening = {}, _clock = -100, _version = 0, }, mt) return session end