local GetTime = QuestHelper_GetTime QuestHelper_File["objective.lua"] = "4.0.1.$svnversion$" QuestHelper_Loadtime["objective.lua"] = GetTime() local UserIgnored = { name = "user_manual_ignored", no_disable = true, friendly_reason = QHText("FILTERED_USER"), AddException = function(self, node) QH_Route_UnignoreNode(node, self) -- there isn't really state with this one end } function QuestHelper:AddObjectiveOptionsToMenu(obj, menu) local submenu = self:CreateMenu() local pri = (QH_Route_GetClusterPriority(obj.cluster) or 0) + 3 for i = 1, 5 do local name = QHText("PRIORITY"..i) local item = self:CreateMenuItem(submenu, name) local tex if pri == i then tex = self:CreateIconTexture(item, 10) else tex = self:CreateIconTexture(item, 12) tex:SetVertexColor(1, 1, 1, 0) end item:AddTexture(tex, true) item:SetFunction(QH_Route_SetClusterPriority, obj.cluster, i - 3) end self:CreateMenuItem(menu, QHText("PRIORITY")):SetSubmenu(submenu) --[[if self.sharing then submenu = self:CreateMenu() local item = self:CreateMenuItem(submenu, QHText("SHARING_ENABLE")) local tex = self:CreateIconTexture(item, 10) if not obj.want_share then tex:SetVertexColor(1, 1, 1, 0) end item:AddTexture(tex, true) item:SetFunction(obj.Share, obj) local item = self:CreateMenuItem(submenu, QHText("SHARING_DISABLE")) local tex = self:CreateIconTexture(item, 10) if obj.want_share then tex:SetVertexColor(1, 1, 1, 0) end item:AddTexture(tex, true) item:SetFunction(obj.Unshare, obj) self:CreateMenuItem(menu, QHText("SHARING")):SetSubmenu(submenu) end]] --self:CreateMenuItem(menu, "(No options available)") if not obj.map_suppress_ignore then self:CreateMenuItem(menu, QHText("IGNORE")):SetFunction(function () QH_Route_IgnoreCluster(obj.cluster, UserIgnored) end) -- There is probably a nasty race condition here. I'm not entirely happy about it. end if obj.map_custom_menu then obj.map_custom_menu(menu) end if obj.cluster and #obj.cluster > 1 and QH_Route_Ignored_Cluster_Active(obj.cluster) > 1 then self:CreateMenuItem(menu, QHText("IGNORE_LOCATION")):SetFunction(QH_Route_IgnoreNode, obj, UserIgnored) end end do return end local function ObjectiveCouldBeFirst(self) if (self.user_ignore == nil and self.auto_ignore) or self.user_ignore then return false end for i, j in pairs(self.after) do if i.watched then return false end end return true end local function DefaultObjectiveKnown(self) if self.user_ignore == nil then if (self.filter_zone and QuestHelper_Pref.filter_zone) or (self.filter_done and QuestHelper_Pref.filter_done) or (self.filter_level and QuestHelper_Pref.filter_level) or (self.filter_blocked and QuestHelper_Pref.filter_blocked) or (self.filter_watched and QuestHelper_Pref.filter_watched) then return false end elseif self.user_ignore then return false end for i, j in pairs(self.after) do if i.watched and not i:Known() then -- Need to know how to do everything before this objective. return false end end return true end local function ObjectiveReason(self, short) local reason, rc = nil, 0 if self.reasons then for r, c in pairs(self.reasons) do if not reason or c > rc or (c == rc and r > reason) then reason, rc = r, c end end end if not reason then reason = "Do some extremely secret unspecified something." end if not short and self.pos and self.pos[6] then reason = reason .. "\n" .. self.pos[6] end return reason end local function Uses(self, obj, text) if self == obj then return end -- You cannot use yourself. A purse is not food. local uses, used = self.uses, obj.used if not uses then uses = QuestHelper:CreateTable("uses") self.uses = uses end if not used then used = QuestHelper:CreateTable("used") obj.used = used end if not uses[obj] then uses[obj] = true used[self] = text obj:MarkUsed() end end local function DoMarkUsed(self) -- Objectives should call 'self:Uses(objective, text)' to mark objectives they use by don't directly depend on. -- This information is used in tooltips. -- text is passed to QHFormat with the name of the objective being used. end local function MarkUsed(self) if not self.marked_used then self.marked_used = 1 self:DoMarkUsed() else self.marked_used = self.marked_used + 1 end end local function MarkUnused(self) --[[ assert(self.marked_used) ]] if self.marked_used == 1 then local uses = self.uses if uses then for obj in pairs(uses) do obj.used[self] = nil obj:MarkUnused() end QuestHelper:ReleaseTable(uses) self.uses = nil end if self.used then --[[ assert(not next(self.used)) ]] QuestHelper:ReleaseTable(self.used) self.used = nil end self.marked_used = nil else self.marked_used = self.marked_used - 1 end end local function DummyObjectiveKnown(self) return (self.o.pos or self.fb.pos) and DefaultObjectiveKnown(self) end local function ItemKnown(self) if not DefaultObjectiveKnown(self) then return false end if self.o.vendor then for i, npc in ipairs(self.o.vendor) do local n = self.qh:GetObjective("monster", npc) local faction = n.o.faction or n.fb.faction if (not faction or faction == self.qh.faction) and n:Known() then return true end end end if self.fb.vendor then for i, npc in ipairs(self.fb.vendor) do local n = self.qh:GetObjective("monster", npc) local faction = n.o.faction or n.fb.faction if (not faction or faction == self.qh.faction) and n:Known() then return true end end end if self.o.pos or self.fb.pos then return true end if self.o.drop then for monster in pairs(self.o.drop) do if self.qh:GetObjective("monster", monster):Known() then return true end end end if self.fb.drop then for monster in pairs(self.fb.drop) do if self.qh:GetObjective("monster", monster):Known() then return true end end end if self.o.contained then for item in pairs(self.o.contained) do if self.qh:GetObjective("item", item):Known() then return true end end end if self.fb.contained then for item in pairs(self.fb.contained) do if self.qh:GetObjective("item", item):Known() then return true end end end if self.quest then local item=self.quest.o.item item = item and item[self.obj] if item then if item.pos then return true end if item.drop then for monster in pairs(item.drop) do if self.qh:GetObjective("monster", monster):Known() then return true end end end end item=self.quest.fb.item item = item and item[self.obj] if item then if item.pos then return true end if item.drop then for monster in pairs(item.drop) do if self.qh:GetObjective("monster", monster):Known() then return true end end end end end return false end local function ObjectiveAppendPositions(self, objective, weight, why, restrict) local high = 0 if self.o.pos then for i, p in ipairs(self.o.pos) do high = math.max(high, p[4]) end end if self.fb.pos then for i, p in ipairs(self.fb.pos) do high = math.max(high, p[4]) end end high = weight/high if self.o.pos then for i, p in ipairs(self.o.pos) do if not restrict or not self.qh:Disallowed(p[1]) then objective:AddLoc(p[1], p[2], p[3], p[4]*high, why) end end end if self.fb.pos then for i, p in ipairs(self.fb.pos) do if not restrict or not self.qh:Disallowed(p[1]) then objective:AddLoc(p[1], p[2], p[3], p[4]*high, why) end end end end local function ObjectivePrepareRouting(self, anywhere) self.setup_count = self.setup_count + 1 if not self.setup then --[[ assert(not self.d) ]] --[[ assert(not self.p) ]] --[[ assert(not self.nm) ]] --[[ assert(not self.nm2) ]] --[[ assert(not self.nl) ]] self.d = QuestHelper:CreateTable("objective.d") self.p = QuestHelper:CreateTable("objective.p") self.nm = QuestHelper:CreateTable("objective.nm") self.nm2 = QuestHelper:CreateTable("objective.nm2") self.nl = QuestHelper:CreateTable("objective.nl") self.distance_cache = QuestHelper:CreateTable("objective.distance_cache") if not anywhere then self:AppendPositions(self, 1, nil, true) if not next(self.p) then QuestHelper:TextOut(QHFormat("INACCESSIBLE_OBJ", self.obj or "whatever it was you just requested")) anywhere = true end end if anywhere then self:AppendPositions(self, 1, nil, false) end self:FinishAddLoc(args) end end local function ItemAppendPositions(self, objective, weight, why, restrict) why2 = why and why.."\n" or "" if self.o.vendor then for i, npc in ipairs(self.o.vendor) do local n = self.qh:GetObjective("monster", npc) local faction = n.o.faction or n.fb.faction if (not faction or faction == self.qh.faction) then n:AppendPositions(objective, 1, why2..QHFormat("OBJECTIVE_PURCHASE", npc), restrict) end end end if self.fb.vendor then for i, npc in ipairs(self.fb.vendor) do local n = self.qh:GetObjective("monster", npc) local faction = n.o.faction or n.fb.faction if (not faction or faction == self.qh.faction) then n:AppendPositions(objective, 1, why2..QHFormat("OBJECTIVE_PURCHASE", npc), restrict) end end end if next(objective.p, nil) then -- If we have points from vendors, then always use vendors. I don't want it telling you to killing the -- towns people just because you had to talk to them anyway, and it saves walking to the store. return end if self.o.drop then for monster, count in pairs(self.o.drop) do local m = self.qh:GetObjective("monster", monster) m:AppendPositions(objective, m.o.looted and count/m.o.looted or 1, why2..QHFormat("OBJECTIVE_SLAY", monster), restrict) end end if self.fb.drop then for monster, count in pairs(self.fb.drop) do local m = self.qh:GetObjective("monster", monster) m:AppendPositions(objective, m.fb.looted and count/m.fb.looted or 1, why2..QHFormat("OBJECTIVE_SLAY", monster), restrict) end end if self.o.contained then for item, count in pairs(self.o.contained) do local i = self.qh:GetObjective("item", item) i:AppendPositions(objective, i.o.opened and count/i.o.opened or 1, why2..QHFormat("OBJECTIVE_LOOT", item), restrict) end end if self.fb.contained then for item, count in pairs(self.fb.contained) do local i = self.qh:GetObjective("item", item) i:AppendPositions(objective, i.fb.opened and count/i.fb.opened or 1, why2..QHFormat("OBJECTIVE_LOOT", item), restrict) end end if self.o.pos then for i, p in ipairs(self.o.pos) do if not restrict or not self.qh:Disallowed(p[1]) then objective:AddLoc(p[1], p[2], p[3], p[4], why) end end end if self.fb.pos then for i, p in ipairs(self.fb.pos) do if not restrict or not self.qh:Disallowed(p[1]) then objective:AddLoc(p[1], p[2], p[3], p[4], why) end end end if self.quest then local item_list=self.quest.o.item if item_list then local data = item_list[self.obj] if data and data.drop then for monster, count in pairs(data.drop) do local m = self.qh:GetObjective("monster", monster) m:AppendPositions(objective, m.o.looted and count/m.o.looted or 1, why2..QHFormat("OBJECTIVE_SLAY", monster), restrict) end elseif data and data.pos then for i, p in ipairs(data.pos) do if not restrict or not self.qh:Disallowed(p[1]) then objective:AddLoc(p[1], p[2], p[3], p[4], why) end end end end item_list=self.quest.fb.item if item_list then local data = item_list[self.obj] if data and data.drop then for monster, count in pairs(data.drop) do local m = self.qh:GetObjective("monster", monster) m:AppendPositions(objective, m.fb.looted and count/m.fb.looted or 1, why2..QHFormat("OBJECTIVE_SLAY", monster), restrict) end elseif data and data.pos then for i, p in ipairs(data.pos) do if not restrict or not self.qh:Disallowed(p[1]) then objective:AddLoc(p[1], p[2], p[3], p[4], why) end end end end end end local function ItemDoMarkUsed(self) if self.o.vendor then for i, npc in ipairs(self.o.vendor) do local n = self.qh:GetObjective("monster", npc) local faction = n.o.faction or n.fb.faction if (not faction or faction == self.qh.faction) then self:Uses(n, "TOOLTIP_PURCHASE") end end end if self.fb.vendor then for i, npc in ipairs(self.fb.vendor) do local n = self.qh:GetObjective("monster", npc) local faction = n.o.faction or n.fb.faction if (not faction or faction == self.qh.faction) then self:Uses(n, "TOOLTIP_PURCHASE") end end end if self.o.drop then for monster, count in pairs(self.o.drop) do self:Uses(self.qh:GetObjective("monster", monster), "TOOLTIP_SLAY") end end if self.fb.drop then for monster, count in pairs(self.fb.drop) do self:Uses(self.qh:GetObjective("monster", monster), "TOOLTIP_SLAY") end end if self.o.contained then for item, count in pairs(self.o.contained) do self:Uses(self.qh:GetObjective("item", item), "TOOLTIP_LOOT") end end if self.fb.contained then for item, count in pairs(self.fb.contained) do self:Uses(self.qh:GetObjective("item", item), "TOOLTIP_LOOT") end end if self.quest then local item_list=self.quest.o.item if item_list then local data = item_list[self.obj] if data and data.drop then for monster, count in pairs(data.drop) do self:Uses(self.qh:GetObjective("monster", monster), "TOOLTIP_SLAY") end end end item_list=self.quest.fb.item if item_list then local data = item_list[self.obj] if data and data.drop then for monster, count in pairs(data.drop) do self:Uses(self.qh:GetObjective("monster", monster), "TOOLTIP_SLAY") end end end end end --------------- -- NEEDS CONVERSION FOR Map, Floor. local function AddLoc(self, index, x, y, w, why) --[[ assert(not self.setup) ]] if w > 0 then local pair = QuestHelper_ZoneLookup[index] QuestHelper: Assert(pair, "Index does not exist... it is probably 26 or 38 and the value really is... '" .. tostring(index) .. "'") if not pair then return end -- that zone doesn't exist! We require more vespene gas. Not enough rage! local c, z = pair[1], pair[2] x, y = self.qh.Astrolabe:TranslateWorldMapPosition(c, z, x, y, c, 0) x = x * self.qh.continent_scales_x[c] y = y * self.qh.continent_scales_y[c] local list = self.qh.zone_nodes[index] local points = self.p[list] if not points then points = QuestHelper:CreateTable("objective.p[zone] (objective nodes per-zone)") self.p[list] = points end for i, p in pairs(points) do local u, v = x-p[3], y-p[4] if u*u+v*v < 25 then -- Combine points within a threshold of 5 seconds travel time. p[3] = (p[3]*p[5]+x*w)/(p[5]+w) p[4] = (p[4]*p[5]+y*w)/(p[5]+w) p[5] = p[5]+w if w > p[7] then p[6], p[7] = why, w end return end end local new = QuestHelper:CreateTable("objective.p[zone] (possible objective node)") new[1], new[2], new[3], new[4], new[5], new[6], new[7] = list, nil, x, y, w, why, w table.insert(points, new) end end local function FinishAddLoc(self, args) local mx = 0 for z, pl in pairs(self.p) do for i, p in ipairs(pl) do if p[5] > mx then self.location = p mx = p[5] end end end if not self.zones then -- Not using CreateTable, because it will not be released when routing is complete. self.zones = {} else -- We could remove the already known zones, but I'm operating under the assumtion that locations will only be added, -- not removed, so this isn't necessary. end -- Remove probably useless locations. for z, pl in pairs(self.p) do local remove_zone = true local i = 1 while i <= #pl do if pl[i][5] < mx*0.2 then QuestHelper:ReleaseTable(pl[i]) table.remove(pl, i) else remove_zone = false i = i + 1 end end if remove_zone then QuestHelper:ReleaseTable(self.p[z]) self.p[z] = nil else self.zones[z.i] = true end end local node_map = self.nm local node_list = self.nl for list, pl in pairs(self.p) do local dist = self.d[list] --[[ assert(not dist) ]] if not dist then dist = QuestHelper:CreateTable("self.d[list]") self.d[list] = dist end for i, point in ipairs(pl) do point[5] = mx/point[5] -- Will become 1 for the most desired location, and become larger and larger for less desireable locations. point[2] = QuestHelper:CreateTable("possible objective node to zone edge cache") for i, node in ipairs(list) do QuestHelper: Assert(type(point[3]) == "number", string.format("p3 %s", tostring(point[3]))) QuestHelper: Assert(type(point[4]) == "number", string.format("p4 %s", tostring(point[4]))) QuestHelper: Assert(type(node.x) == "number", string.format("nx %s", tostring(node.x))) QuestHelper: Assert(type(node.y) == "number", string.format("ny %s", tostring(node.y))) local u, v = point[3]-node.x, point[4]-node.y local d = math.sqrt(u*u+v*v) point[2][i] = d if dist[i] then if d*point[5] < dist[i][1]*dist[i][2] then dist[i][1], dist[i][2] = d, point[5] node_map[node] = point end else local pair = QuestHelper:CreateTable() pair[1], pair[2] = d, point[5] dist[i] = pair if not node_map[node] then table.insert(node_list, node) node_map[node] = point else u, v = node_map[node][3]-node.x, node_map[node][4]-node.y if dist[i][1]*dist[i][2] < math.sqrt(u*u+v*v)*node_map[node][5] then node_map[node] = point end end end end end end -- Disabled because we're having some data sanity issues. This should be solved at buildtime, but I'm leery of mucking with the build system right now, so it isn't. Re-enable later. --if not args or not args.failable then -- if #node_list == 0 and QuestHelper:IsWrath() then QuestHelper:Error(self.cat.."/"..self.obj..": zero nodes!") end --end --[[ assert(not self.setup) ]] self.setup = true table.insert(self.qh.prepared_objectives, self) end local function GetPosition(self) --[[ assert(self.setup) ]] return self.location end local QH_TESTCACHE = nil -- make this "true" or something if you want to test caching (i.e. recalculate everything, then verify that the cache is valid) -- Note: Pos is the starting point, the objective is the destination. These are different data formats - "self" can be a set of points. -- More annotation here, if you're trying to learn the codebase. This function is a more complicated version of QH:ComputeTravelTime, so refer to that for information first before reading this one. local function ObjectiveTravelTime(self, pos, nocache) --[[ assert(self.setup) ]] -- The caching is pretty obvious. local key, cached if not nocache then --[[ assert(pos ~= QuestHelper.pos) ]] if not pos.key then pos.key = math.random().."" end key = pos.key cached = self.distance_cache[key] if cached then if not QH_TESTCACHE then return unpack(cached) end end end local graph = self.qh.world_graph local nl = self.nl graph:PrepareSearch() -- This is quite similar to the same "create nodes for all zone links" in ComputeTravelTime except that it's creating nodes for all zone links for a set of possible destinations. I'm not sure if the weighting is backwards. It might be. for z, l in pairs(self.d) do for i, n in ipairs(z) do if n.s == 0 then n.e, n.w = unpack(l[i]) n.s = 3 elseif n.e * n.w < l[i][1]*l[i][2] then n.e, n.w = unpack(l[i]) end end end local d = pos[2] for i, n in ipairs(pos[1]) do graph:AddStartNode(n, d[i], nl) end local e = graph:DoSearch(nl) -- d changes datatype here. I hate this codebase. Hell, e probably changes datatype also! yaaaay. what does .nm mean? what does .d mean? d = e.g+e.e e = self.nm[e] -- There's something going on with weighting here that I don't understand local l = self.p[pos[1]] if l then local x, y = pos[3], pos[4] local score = d*e[5] for i, n in ipairs(l) do local u, v = x-n[3], y-n[4] local d2 = math.sqrt(u*u+v*v) local s = d2*n[5] if s < score then d, e, score = d2, n, s end end end --[[ assert(e) ]] if not nocache then --[[ assert( not cached or (cached[1] == d and cached[2] == e)) ]] if not QH_TESTCACHE or not cached then local new = self.qh:CreateTable() new[1], new[2] = d, e self.distance_cache[key] = new self.qh:CacheRegister(self) end else if self.distance_cache and self.distance_cache[key] then --[[ assert(self.distance_cache[key][1] == d) ]] end end return d, e end -- Note: pos1 is the starting point, pos2 is the ending point, the objective is somewhere between them. -- Yet more annotation! This one is based off ObjectiveTravelTime. Yes, it's nasty that there are three (edit: four) functions with basically the same goal. Have I mentioned this codebase kind of sucks? local function ObjectiveTravelTime2(self, pos1, pos2, nocache) --[[ assert(self.setup) ]] -- caching is pretty simple as usual local key, cached if not nocache then --[[ assert(pos1 ~= QuestHelper.pos) ]] --[[ assert(pos2 ~= QuestHelper.pos) ]] -- We don't want to cache distances involving the player's current position, as that would spam the table if not pos1.key then pos1.key = math.random().."" end if not pos2.key then pos2.key = math.random().."" end key = pos1.key..pos2.key cached = self.distance_cache[key] if cached then if not QH_TESTCACHE then return unpack(cached) end end end local graph = self.qh.world_graph local nl = self.nl -- This is the standard pos1-to-self code that we're used to seeing . . . graph:PrepareSearch() for z, l in pairs(self.d) do for i, n in ipairs(z) do if n.s == 0 then n.e, n.w = unpack(l[i]) n.s = 3 elseif n.e * n.w < l[i][1]*l[i][2] then n.e, n.w = unpack(l[i]) end end end local d = pos1[2] for i, n in ipairs(pos1[1]) do graph:AddStartNode(n, d[i], nl) end graph:DoFullSearch(nl) graph:PrepareSearch() -- . . . and here's where it gets wonky -- Now, we need to figure out how long it takes to get to each node. for z, point_list in pairs(self.p) do if z == pos1[1] then -- Will also consider min distance. local x, y = pos1[3], pos1[4] for i, p in ipairs(point_list) do local a, b = p[3]-x, p[4]-y local u, v = p[3], p[4] local d = math.sqrt(a*a+b*b) local w = p[5] local score = d*w for i, n in ipairs(z) do a, b = n.x-u, n.y-v local bleh = math.sqrt(a*a+b*b)+n.g local s = bleh*w if s < score then d, score = bleh, d end end p[7] = d end else for i, p in ipairs(point_list) do local x, y = p[3], p[4] local w = p[5] local d local score for i, n in ipairs(z) do local a, b = n.x-x, n.y-y local d2 = math.sqrt(a*a+b*b)+n.g local s = d2*w if not score or s < score then d, score = d2, s end end p[7] = d end end end d = pos2[2] for i, n in ipairs(pos2[1]) do n.e = d[i] n.s = 3 end local el = pos2[1] local nm = self.nm2 for z, l in pairs(self.d) do for i, n in ipairs(z) do local x, y = n.x, n.y local bp local bg local bs for i, p in ipairs(self.p[z]) do local a, b = x-p[3], y-p[4] d = p[7]+math.sqrt(a*a+b*b) s = d*p[5] if not bs or s < bs then bg, bp, bs = d, p, s end end nm[n] = bp -- Using score instead of distance, because we want nodes we're not really interested in to be less likely to get chosen. graph:AddStartNode(n, bs, el) end end local e = graph:DoSearch(pos2[1]) d = nm[e.p][7] local d2 = e.g+e.e-e.p.g+(e.p.g/nm[e.p][5]-nm[e.p][7]) e = nm[e.p] local total = (d+d2)*e[5] if self.p[el] then local x, y = pos2[3], pos2[4] for i, p in ipairs(self.p[el]) do local a, b = x-p[3], y-p[4] local c = math.sqrt(a*a+b*b) local t = (p[7]+c)*p[5] if t < total then total, d, d2, e = t, p[7], c, p end end end -- grim stabilization hack, since obviously the numbers it generates are only vaguely based in reality. This should be fixed and removed ASAP (you know, once I figure out WTF this thing is doing) d = QuestHelper:ComputeTravelTime(pos1, e) d2 = QuestHelper:ComputeTravelTime(e, pos2) --[[ assert(e) ]] if not nocache then --[[ assert( not cached or (cached[1] == d and cached[2] == d2 and cached[3] == e)) ]] if not QH_TESTCACHE or not cached then local new = self.qh:CreateTable("ObjectiveTravelTime2 cache") new[1], new[2], new[3] = d, d2, e self.distance_cache[key] = new self.qh:CacheRegister(self) end else if self.distance_cache and self.distance_cache[key] then --[[ assert(self.distance_cache[key][1] == d and self.distance_cache[key][2] == d2) ]] end end --[[if pos1 and pos2 then -- Debug code so I can maybe actually fix the problems someday QuestHelper:TextOut("Beginning dumping here") local laxa = QuestHelper:ComputeTravelTime(pos1, e, true) if math.abs(laxa-d) >= 0.0001 then QuestHelper:TextOut(QuestHelper:StringizeTable(pos1)) QuestHelper:TextOut(QuestHelper:StringizeRecursive(pos1, 2)) QuestHelper:TextOut(QuestHelper:StringizeTable(e)) QuestHelper:TextOut(QuestHelper:StringizeTable(e[1])) QuestHelper:TextOut(QuestHelper:StringizeTable(e[2])) QuestHelper:TextOut(QuestHelper:StringizeRecursive(e[1], 2))]] ----[[ QuestHelper:Assert(math.abs(laxa-d) < 0.0001, "Compare: "..laxa.." vs "..d) ]] -- wonky commenting is thanks to the de-assert script, fix later --[[end local laxb = QuestHelper:ComputeTravelTime(e, pos2, true) if math.abs(laxb-d2) >= 0.0001 then QuestHelper:TextOut(QuestHelper:StringizeTable(pos2)) QuestHelper:TextOut(QuestHelper:StringizeTable(e)) QuestHelper:TextOut(QuestHelper:StringizeTable(e[1])) QuestHelper:TextOut(QuestHelper:StringizeTable(e[2])) QuestHelper:TextOut(QuestHelper:StringizeRecursive(e[1], 2))]] ----[[ QuestHelper:Assert(math.abs(laxa-d) < 0.0001, "Compare: "..laxb.." vs "..d2) ]] --[[end end]] return d, d2, e end local function DoneRouting(self) --[[ assert(self.setup_count > 0) ]] --[[ assert(self.setup) ]] if self.setup_count == 1 then self.setup_count = 0 QuestHelper:ReleaseObjectivePathingInfo(self) for i, obj in ipairs(self.qh.prepared_objectives) do if o == obj then table.remove(self.qh.prepared_objectives, i) break end end else self.setup_count = self.setup_count - 1 end end local function IsObjectiveWatched(self) -- Check if an objective is being watched. Note that this is an external query, not a simple Selector. local info if self.cat == "quest" then info = QuestHelper.quest_log[self] else info = QuestHelper.quest_log[self.quest] end if info then local index = info.index if index then if UberQuest then -- UberQuest has it's own way of tracking quests. local uq_settings = UberQuest_Config[UnitName("player")] if uq_settings then local list = uq_settings.selected if list then return list[GetQuestLogTitle(index)] end end else return IsQuestWatched(index) end end end return false end local next_objective_id = 0 local function ObjectiveShare(self) self.want_share = true end local function ObjectiveUnshare(self) self.want_share = false end QuestHelper.default_objective_param = { CouldBeFirst=ObjectiveCouldBeFirst, Uses=Uses, DoMarkUsed=DoMarkUsed, MarkUsed=MarkUsed, MarkUnused=MarkUnused, DefaultKnown=DefaultObjectiveKnown, Known=DummyObjectiveKnown, Reason=ObjectiveReason, AppendPositions=ObjectiveAppendPositions, PrepareRouting=ObjectivePrepareRouting, AddLoc=AddLoc, FinishAddLoc=FinishAddLoc, DoneRouting=DoneRouting, Position=GetPosition, TravelTime=ObjectiveTravelTime, TravelTime2=ObjectiveTravelTime2, IsWatched=IsObjectiveWatched, Share=ObjectiveShare, -- Invoke to share this objective with your peers. Unshare=ObjectiveUnshare, -- Invoke to stop sharing this objective. } QuestHelper.default_objective_item_param = { Known = ItemKnown, AppendPositions = ItemAppendPositions, DoMarkUsed = ItemDoMarkUsed } for key, value in pairs(QuestHelper.default_objective_param) do if not QuestHelper.default_objective_item_param[key] then QuestHelper.default_objective_item_param[key] = value end end QuestHelper.default_objective_meta = { __index = QuestHelper.default_objective_param } QuestHelper.default_objective_item_meta = { __index = QuestHelper.default_objective_item_param } function QuestHelper:NewObjectiveObject() next_objective_id = next_objective_id+1 return setmetatable({ qh=self, id=next_objective_id, want_share=false, -- True if we want this objective shared. is_sharing=false, -- Set to true if we've told other users about this objective. user_ignore=nil, -- When nil, will use filters. Will ignore, when true, always show (if known). priority=3, -- A hint as to what priority the quest should have. Should be 1, 2, 3, 4, or 5. real_priority=3, -- This will be set to the priority routing actually decided to assign it. setup_count=0, icon_id=12, icon_bg=14, match_zone=false, match_level=false, match_done=false, before={}, -- List of objectives that this objective must appear before. after={}, -- List of objectives that this objective must appear after. -- Routing related junk. --[[ Will be created as needed. d=nil, p=nil, nm=nil, -- Maps nodes to their nearest zone/list/x/y position. nm2=nil, -- Maps nodes to their nears position, but dynamically set in TravelTime2. nl=nil, -- List of all the nodes we need to consider. location=nil, -- Will be set to the best position for the node. pos=nil, -- Zone node list, distance list, x, y, reason. sop=nil ]] }, QuestHelper.default_objective_meta) end local explicit_support_warning_given = false function QuestHelper:GetObjective(category, objective) local objective_list = self.objective_objects[category] if not objective_list then objective_list = {} self.objective_objects[category] = objective_list end local objective_object = objective_list[objective] if not objective_object then if category == "quest" then local level, hash, name = string.match(objective, "^(%d+)/(%d*)/(.*)$") if not level then level, name = string.match(objective, "^(%d+)/(.*)$") if not level then name = objective end end if hash == "" then hash = nil end objective_object = self:GetQuest(name, tonumber(level), tonumber(hash)) objective_list[objective] = objective_object return objective_object end objective_object = self:NewObjectiveObject() objective_object.cat = category objective_object.obj = objective if category == "item" then setmetatable(objective_object, QuestHelper.default_objective_item_meta) objective_object.icon_id = 2 elseif category == "monster" then objective_object.icon_id = 1 elseif category == "object" then objective_object.icon_id = 3 elseif category == "event" then objective_object.icon_id = 4 elseif category == "loc" then objective_object.icon_id = 6 elseif category == "reputation" then objective_object.icon_id = 5 elseif category == "player" then objective_object.icon_id = 1 -- not ideal, will improve later else if not explicit_support_warning_given then self:TextOut("FIXME: Objective type '"..category.."' for objective '"..objective.."' isn't explicitly supported yet; hopefully the dummy handler will do something sensible.") explicit_support_warning_given = true end end objective_list[objective] = objective_object if category == "loc" then -- Loc is special, we don't store it, and construct it from the string. -- Don't have any error checking here, will assume it's correct. local i local _, _, c, z, x, y = string.find(objective,"^(%d+),(%d+),([%d%.]+),([%d%.]+)$") if not y then _, _, i, x, y = string.find(objective,"^(%d+),([%d%.]+),([%d%.]+)$") else i = QuestHelper_IndexLookup[c][z] end objective_object.o = {pos={{tonumber(i),tonumber(x),tonumber(y),1}}} objective_object.fb = {} else objective_list = QuestHelper_Objectives_Local[category] if not objective_list then objective_list = {} QuestHelper_Objectives_Local[category] = objective_list end objective_object.o = objective_list[objective] if not objective_object.o then objective_object.o = {} objective_list[objective] = objective_object.o end local l = QuestHelper_StaticData[self.locale] if l then objective_list = l.objective[category] if objective_list then objective_object.fb = objective_list[objective] end end if not objective_object.fb then objective_object.fb = {} end -- TODO: If we have some other source of information (like LightHeaded) add its data to objective_object.fb end end return objective_object end function QuestHelper:AppendObjectivePosition(objective, i, x, y, w) if not i then return end -- We don't have a player position. We have a pile of poop. Enjoy your poop. local pos = objective.o.pos if not pos then if objective.o.drop or objective.o.contained then return -- If it's dropped by a monster, don't record the position we got the item at. end objective.o.pos = self:AppendPosition({}, i, x, y, w) else self:AppendPosition(pos, i, x, y, w) end end function QuestHelper:AppendObjectiveDrop(objective, monster, count) local drop = objective.o.drop if drop then drop[monster] = (drop[monster] or 0)+(count or 1) else objective.o.drop = {[monster] = count or 1} objective.o.pos = nil -- If it's dropped by a monster, then forget the position we found it at. end end function QuestHelper:AppendItemObjectiveDrop(item_object, item_name, monster_name, count) local quest = self:ItemIsForQuest(item_object, item_name) if quest and not item_object.o.vendor and not item_object.o.drop and not item_object.o.pos then self:AppendQuestDrop(quest, item_name, monster_name, count) else if not item_object.o.drop and not item_object.o.pos then self:PurgeQuestItem(item_object, item_name) end self:AppendObjectiveDrop(item_object, monster_name, count) end end function QuestHelper:AppendItemObjectivePosition(item_object, item_name, i, x, y) local quest = self:ItemIsForQuest(item_object, item_name) if quest and not item_object.o.vendor and not item_object.o.drop and not item_object.o.pos then self:AppendQuestPosition(quest, item_name, i, x, y) else if not item_object.o.vendor and not item_object.o.drop and not item_object.o.contained and not item_object.o.pos then -- Just learned that this item doesn't depend on a quest to drop, remove any quest references to it. self:PurgeQuestItem(item_object, item_name) end self:AppendObjectivePosition(item_object, i, x, y) end end function QuestHelper:AppendItemObjectiveContainer(objective, container_name, count) local container = objective.o.contained if container then container[container_name] = (container[container_name] or 0)+(count or 1) else objective.o.contained = {[container_name] = count or 1} objective.o.pos = nil -- Forget the position. end end function QuestHelper:AddObjectiveWatch(objective, reason) if not objective.reasons then objective.reasons = {} end if not next(objective.reasons, nil) then objective.watched = true objective:MarkUsed() objective.filter_blocked = false for obj in pairs(objective.swap_after or objective.after) do if obj.watched then objective.filter_blocked = true break end end for obj in pairs(objective.swap_before or objective.before) do if obj.watched then obj.filter_blocked = true end end if self.to_remove[objective] then self.to_remove[objective] = nil else self.to_add[objective] = true end end objective.reasons[reason] = (objective.reasons[reason] or 0) + 1 end function QuestHelper:RemoveObjectiveWatch(objective, reason) if objective.reasons[reason] == 1 then objective.reasons[reason] = nil if not next(objective.reasons, nil) then objective:MarkUnused() objective.watched = false for obj in pairs(objective.swap_before or objective.before) do if obj.watched then obj.filter_blocked = false for obj2 in pairs(obj.swap_after or obj.after) do if obj2.watched then obj.filter_blocked = true break end end end end if self.to_add[objective] then self.to_add[objective] = nil else self.to_remove[objective] = true end end else objective.reasons[reason] = objective.reasons[reason] - 1 end end function QuestHelper:ObjectiveObjectDependsOn(objective, needs) --[[ assert(objective ~= needs) ]] -- If this was true, ObjectiveIsKnown would get in an infinite loop. -- TODO: Needs sanity checking, especially now that dependencies can be assigned by remote users. -- We store the new relationships in objective.swap_[before|after], -- creating and copying them from objective.[before|after], -- the routing coroutine will check for those, swap them, and release the originals -- when it gets to a safe place to do so. if not (objective.swap_after or objective.after)[needs] then if objective.peer then for u, l in pairs(objective.peer) do -- Make sure other users know that the dependencies for this objective changed. objective.peer[u] = math.min(l, 1) end end if not objective.swap_after then objective.swap_after = self:CreateTable("swap_after") for key,value in pairs(objective.after) do objective.swap_after[key] = value end end if not needs.swap_before then needs.swap_before = self:CreateTable("swap_before") for key,value in pairs(needs.before) do needs.swap_before[key] = value end end if needs.watched then objective.filter_blocked = true end objective.swap_after[needs] = true needs.swap_before[objective] = true end end function QuestHelper:IgnoreObjective(objective) if self.user_objectives[objective] then self:RemoveObjectiveWatch(objective, self.user_objectives[objective]) self.user_objectives[objective] = nil else objective.user_ignore = true end --self:ForceRouteUpdate() end function QuestHelper:SetObjectivePriority(objective, level) level = math.min(5, math.max(1, math.floor((tonumber(level) or 3)+0.5))) if level ~= objective.priority then objective.priority = level if objective.peer then for u, l in pairs(objective.peer) do -- Peers don't know about this new priority. objective.peer[u] = math.min(l, 2) end end --self:ForceRouteUpdate() end end local function CalcObjectivePriority(obj) local priority = obj.priority for o in pairs(obj.before) do if o.watched then priority = math.min(priority, CalcObjectivePriority(o)) end end return priority end local function ApplyBlockPriority(obj, level) for o in pairs(obj.before) do if o.watched then ApplyBlockPriority(o, level) end end if obj.priority < level then QuestHelper:SetObjectivePriority(obj, level) end end function QuestHelper:SetObjectivePriorityPrompt(objective, level) self:SetObjectivePriority(objective, level) if CalcObjectivePriority(objective) ~= level then local menu = self:CreateMenu() self:CreateMenuTitle(menu, QHText("IGNORED_PRIORITY_TITLE")) self:CreateMenuItem(menu, QHText("IGNORED_PRIORITY_FIX")):SetFunction(ApplyBlockPriority, objective, level) self:CreateMenuItem(menu, QHText("IGNORED_PRIORITY_IGNORE")):SetFunction(self.nop) menu:ShowAtCursor() end end function QuestHelper:SetObjectiveProgress(objective, user, have, need) if have and need then local list = objective.progress if not list then list = self:CreateTable("objective.progress") objective.progress = list end local user_progress = list[user] if not user_progress then user_progress = self:CreateTable("objective.progress[user]") list[user] = user_progress end local pct = 0 local a, b = tonumber(have), tonumber(need) if a and b then if b ~= 0 then pct = a/b elseif a == 0 then pct = 1 end elseif a == b then pct = 1 end user_progress[1], user_progress[2], user_progress[3] = have, need, pct else if objective.progress then if objective.progress[user] then self:ReleaseTable(objective.progress[user]) objective.progress[user] = nil if not next(objective.progress, nil) then self:ReleaseTable(objective.progress) objective.progress = nil end end end end end