local guide = require 'parser.guide' ---@class vm local vm = require 'vm.vm' ---@class vm.sign ---@field parent parser.object ---@field signList vm.node[] ---@field docGenric parser.object[] local mt = {} mt.__index = mt mt.type = 'sign' ---@param node vm.node function mt:addSign(node) self.signList[#self.signList+1] = node end ---@param doc parser.object function mt:addDocGeneric(doc) self.docGenric[#self.docGenric+1] = doc end ---@param uri uri ---@param args parser.object ---@return table? function mt:resolve(uri, args) if not args then return nil end ---@type table local resolved = {} ---@param object vm.node|vm.node.object ---@param node vm.node local function resolve(object, node) if object.type == 'vm.node' then for o in object:eachObject() do resolve(o, node) end return end if object.type == 'doc.type' then ---@cast object parser.object resolve(vm.compileNode(object), node) return end if object.type == 'doc.generic.name' then ---@type string local key = object[1] if object.literal then -- 'number' -> `T` for n in node:eachObject() do if n.type == 'string' then ---@cast n parser.object local type = vm.declareGlobal('type', n[1], guide.getUri(n)) resolved[key] = vm.createNode(type, resolved[key]) end end else -- number -> T for n in node:eachObject() do if n.type ~= 'doc.generic.name' and n.type ~= 'generic' then if resolved[key] then resolved[key]:merge(n) else resolved[key] = vm.createNode(n) end end end if resolved[key] and node:isOptional() then resolved[key]:addOptional() end end return end if object.type == 'doc.type.array' then for n in node:eachObject() do if n.type == 'doc.type.array' then -- number[] -> T[] resolve(object.node, vm.compileNode(n.node)) end if n.type == 'doc.type.table' then -- { [integer]: number } -> T[] local tvalueNode = vm.getTableValue(uri, node, 'integer', true) if tvalueNode then resolve(object.node, tvalueNode) end end if n.type == 'global' and n.cate == 'type' then -- ---@field [integer]: number -> T[] ---@cast n vm.global vm.getClassFields(uri, n, vm.declareGlobal('type', 'integer'), function (field) resolve(object.node, vm.compileNode(field.extends)) end) end if n.type == 'table' and #n >= 1 then -- { x } / { ... } -> T[] resolve(object.node, vm.compileNode(n[1])) end end return end if object.type == 'doc.type.table' then for _, ufield in ipairs(object.fields) do local ufieldNode = vm.compileNode(ufield.name) local uvalueNode = vm.compileNode(ufield.extends) local firstField = ufieldNode:get(1) local firstValue = uvalueNode:get(1) if not firstField or not firstValue then goto CONTINUE end if firstField.type == 'doc.generic.name' and firstValue.type == 'doc.generic.name' then -- { [number]: number} -> { [K]: V } local tfieldNode = vm.getTableKey(uri, node, 'any', true) local tvalueNode = vm.getTableValue(uri, node, 'any', true) if tfieldNode then resolve(firstField, tfieldNode) end if tvalueNode then resolve(firstValue, tvalueNode) end else if ufieldNode:get(1).type == 'doc.generic.name' then -- { [number]: number}|number[] -> { [K]: number } local tnode = vm.getTableKey(uri, node, uvalueNode, true) if tnode then resolve(firstField, tnode) end elseif uvalueNode:get(1).type == 'doc.generic.name' then -- { [number]: number}|number[] -> { [number]: V } local tnode = vm.getTableValue(uri, node, ufieldNode, true) if tnode then resolve(firstValue, tnode) end end end ::CONTINUE:: end return end if object.type == 'doc.type.function' then for i, arg in ipairs(object.args) do for n in node:eachObject() do if n.type == 'function' or n.type == 'doc.type.function' then ---@cast n parser.object local farg = n.args and n.args[i] if farg then resolve(arg.extends, vm.compileNode(farg)) end end end end for i, ret in ipairs(object.returns) do for n in node:eachObject() do if n.type == 'function' or n.type == 'doc.type.function' then ---@cast n parser.object local fret = vm.getReturnOfFunction(n, i) if fret then resolve(ret, vm.compileNode(fret)) end end end end return end end ---@param sign vm.node ---@return table ---@return table local function getSignInfo(sign) local knownTypes = {} local genericsNames = {} for obj in sign:eachObject() do if obj.type == 'doc.generic.name' then genericsNames[obj[1]] = true goto CONTINUE end if obj.type == 'doc.type.table' or obj.type == 'doc.type.function' or obj.type == 'doc.type.array' then ---@cast obj parser.object local hasGeneric guide.eachSourceType(obj, 'doc.generic.name', function (src) hasGeneric = true genericsNames[src[1]] = true end) if hasGeneric then goto CONTINUE end end if obj.type == 'variable' or obj.type == 'local' then goto CONTINUE end local view = vm.getInfer(obj):view(uri) if view then knownTypes[view] = true end ::CONTINUE:: end return knownTypes, genericsNames end -- remove un-generic type ---@param argNode vm.node ---@param sign vm.node ---@param knownTypes table ---@return vm.node local function buildArgNode(argNode, sign, knownTypes) local newArgNode = vm.createNode() local needRemoveNil = sign:hasFalsy() for n in argNode:eachObject() do if needRemoveNil then if n.type == 'nil' then goto CONTINUE end if n.type == 'global' and n.cate == 'type' and n.name == 'nil' then goto CONTINUE end end local view = vm.getInfer(n):view(uri) if knownTypes[view] then goto CONTINUE end newArgNode:merge(n) ::CONTINUE:: end if not needRemoveNil and argNode:isOptional() then newArgNode:addOptional() end return newArgNode end ---@param genericNames table local function isAllResolved(genericNames) for n in pairs(genericNames) do if not resolved[n] then return false end end return true end for i, arg in ipairs(args) do local sign = self.signList[i] if not sign then break end local argNode = vm.compileNode(arg) local knownTypes, genericNames = getSignInfo(sign) if not isAllResolved(genericNames) then local newArgNode = buildArgNode(argNode,sign, knownTypes) resolve(sign, newArgNode) end end return resolved end ---@return vm.sign function vm.createSign() local genericMgr = setmetatable({ signList = {}, docGenric = {}, }, mt) return genericMgr end ---@class parser.object ---@field package _sign vm.sign|false|nil ---@param source parser.object ---@param sign vm.sign function vm.setSign(source, sign) source._sign = sign end ---@param source parser.object ---@return vm.sign? function vm.getSign(source) if source._sign ~= nil then return source._sign or nil end source._sign = false if source.type == 'function' then if not source.bindDocs then return nil end for _, doc in ipairs(source.bindDocs) do if doc.type == 'doc.generic' then if not source._sign then source._sign = vm.createSign() end source._sign:addDocGeneric(doc) end end if not source._sign then return nil end if source.args then for _, arg in ipairs(source.args) do local argNode = vm.compileNode(arg) if arg.optional then argNode:addOptional() end source._sign:addSign(argNode) end end end if source.type == 'doc.type.function' or source.type == 'doc.type.table' or source.type == 'doc.type.array' then local hasGeneric guide.eachSourceType(source, 'doc.generic.name', function (_) hasGeneric = true end) if not hasGeneric then return nil end source._sign = vm.createSign() if source.type == 'doc.type.function' then for _, arg in ipairs(source.args) do if arg.extends then local argNode = vm.compileNode(arg.extends) if arg.optional then argNode:addOptional() end source._sign:addSign(argNode) else source._sign:addSign(vm.createNode()) end end end end return source._sign or nil end