OpenFusion/src/TableData.cpp
2020-10-03 11:20:51 -04:00

339 lines
15 KiB
C++

#include "TableData.hpp"
#include "NPCManager.hpp"
#include "TransportManager.hpp"
#include "ItemManager.hpp"
#include "settings.hpp"
#include "MissionManager.hpp"
#include "MobManager.hpp"
#include "ChunkManager.hpp"
#include "NanoManager.hpp"
#include "contrib/JSON.hpp"
#include <fstream>
std::map<int32_t, std::stack<WarpLocation>> TableData::RunningSkywayRoutes;
void TableData::init() {
int32_t nextId = 0;
// load NPCs from NPC.json
try {
std::ifstream inFile(settings::NPCJSON);
nlohmann::json npcData;
// read file into json
inFile >> npcData;
for (nlohmann::json::iterator _npc = npcData.begin(); _npc != npcData.end(); _npc++) {
auto npc = _npc.value();
BaseNPC *tmp = new BaseNPC(npc["x"], npc["y"], npc["z"], INSTANCE_OVERWORLD, npc["id"], nextId);
NPCManager::NPCs[nextId] = tmp;
NPCManager::updateNPCPosition(nextId, npc["x"], npc["y"], npc["z"]);
nextId++;
if (npc["id"] == 641 || npc["id"] == 642)
NPCManager::RespawnPoints.push_back({ npc["x"], npc["y"], ((int)npc["z"]) + RESURRECT_HEIGHT });
}
}
catch (const std::exception& err) {
std::cerr << "[WARN] Malformed NPCs.json file! Reason:" << err.what() << std::endl;
}
loadPaths(&nextId); // load paths
// load everything else from xdttable
std::cout << "[INFO] Parsing xdt.json..." << std::endl;
std::ifstream infile(settings::XDTJSON);
nlohmann::json xdtData;
// read file into json
infile >> xdtData;
// data we'll need for summoned mobs
NPCManager::NPCData = xdtData["m_pNpcTable"]["m_pNpcData"];
try {
// load warps
nlohmann::json warpData = xdtData["m_pInstanceTable"]["m_pWarpData"];
for (nlohmann::json::iterator _warp = warpData.begin(); _warp != warpData.end(); _warp++) {
auto warp = _warp.value();
WarpLocation warpLoc = { warp["m_iToX"], warp["m_iToY"], warp["m_iToZ"] };
int warpID = warp["m_iWarpNumber"];
NPCManager::Warps[warpID] = warpLoc;
}
std::cout << "[INFO] Populated " << NPCManager::Warps.size() << " Warps" << std::endl;
// load transport routes and locations
nlohmann::json transRouteData = xdtData["m_pTransportationTable"]["m_pTransportationData"];
nlohmann::json transLocData = xdtData["m_pTransportationTable"]["m_pTransportationWarpLocation"];
for (nlohmann::json::iterator _tLoc = transLocData.begin(); _tLoc != transLocData.end(); _tLoc++) {
auto tLoc = _tLoc.value();
TransportLocation transLoc = { tLoc["m_iNPCID"], tLoc["m_iXpos"], tLoc["m_iYpos"], tLoc["m_iZpos"] };
TransportManager::Locations[tLoc["m_iLocationID"]] = transLoc;
}
std::cout << "[INFO] Loaded " << TransportManager::Locations.size() << " S.C.A.M.P.E.R. locations" << std::endl;
for (nlohmann::json::iterator _tRoute = transRouteData.begin(); _tRoute != transRouteData.end(); _tRoute++) {
auto tRoute = _tRoute.value();
TransportRoute transRoute = { tRoute["m_iMoveType"], tRoute["m_iStartLocation"], tRoute["m_iEndLocation"],
tRoute["m_iCost"] , tRoute["m_iSpeed"], tRoute["m_iRouteNum"] };
TransportManager::Routes[tRoute["m_iVehicleID"]] = transRoute;
}
std::cout << "[INFO] Loaded " << TransportManager::Routes.size() << " transportation routes" << std::endl;
// load mission-related data
nlohmann::json tasks = xdtData["m_pMissionTable"]["m_pMissionData"];
for (auto _task = tasks.begin(); _task != tasks.end(); _task++) {
auto task = _task.value();
// rewards
if (task["m_iSUReward"] != 0) {
auto _rew = xdtData["m_pMissionTable"]["m_pRewardData"][(int)task["m_iSUReward"]];
Reward *rew = new Reward(_rew["m_iMissionRewardID"], _rew["m_iMissionRewarItemType"],
_rew["m_iMissionRewardItemID"], _rew["m_iCash"], _rew["m_iFusionMatter"]);
MissionManager::Rewards[task["m_iHTaskID"]] = rew;
}
// everything else lol. see TaskData comment.
MissionManager::Tasks[task["m_iHTaskID"]] = new TaskData(task);
}
std::cout << "[INFO] Loaded mission-related data" << std::endl;
// load all item data. i'm sorry. it has to be done
const char* setNames[12] = { "m_pBackItemTable", "m_pFaceItemTable", "m_pGlassItemTable", "m_pHatItemTable",
"m_pHeadItemTable", "m_pPantsItemTable", "m_pShirtsItemTable", "m_pShoesItemTable", "m_pWeaponItemTable",
"m_pVehicleItemTable", "m_pGeneralItemTable", "m_pChestItemTable" };
nlohmann::json itemSet;
for (int i = 0; i < 12; i++) {
itemSet = xdtData[setNames[i]]["m_pItemData"];
for (nlohmann::json::iterator _item = itemSet.begin(); _item != itemSet.end(); _item++) {
auto item = _item.value();
int typeOverride = getItemType(i); // used for special cases where iEquipLoc doesn't indicate item type
ItemManager::ItemData[std::pair<int32_t, int32_t>(item["m_iItemNumber"], typeOverride != -1 ? typeOverride : (int)item["m_iEquipLoc"])]
= { item["m_iTradeAble"] == 1, item["m_iSellAble"] == 1, item["m_iItemPrice"], item["m_iItemSellPrice"], item["m_iStackNumber"], i > 9 ? 0 : (int)item["m_iMinReqLev"], i > 9 ? 1 : (int)item["m_iRarity"], i > 9 ? 0 : (int)item["m_iPointRat"], i > 9 ? 0 : (int)item["m_iGroupRat"], i > 9 ? 0 : (int)item["m_iDefenseRat"] };
}
}
std::cout << "[INFO] Loaded " << ItemManager::ItemData.size() << " items" << std::endl;
// load player limits from m_pAvatarTable.m_pAvatarGrowData
nlohmann::json growth = xdtData["m_pAvatarTable"]["m_pAvatarGrowData"];
for (int i = 0; i < 37; i++) {
MissionManager::AvatarGrowth[i] = growth[i];
}
// load vendor listings
nlohmann::json listings = xdtData["m_pVendorTable"]["m_pItemData"];
for (nlohmann::json::iterator _lst = listings.begin(); _lst != listings.end(); _lst++) {
auto lst = _lst.value();
VendorListing vListing = { lst["m_iSortNumber"], lst["m_iItemType"], lst["m_iitemID"] };
ItemManager::VendorTables[lst["m_iNpcNumber"]].push_back(vListing);
}
std::cout << "[INFO] Loaded " << ItemManager::VendorTables.size() << " vendor tables" << std::endl;
// load crocpot entries
nlohmann::json crocs = xdtData["m_pCombiningTable"]["m_pCombiningData"];
for (nlohmann::json::iterator croc = crocs.begin(); croc != crocs.end(); croc++) {
CrocPotEntry crocEntry = { croc.value()["m_iStatConstant"], croc.value()["m_iLookConstant"], croc.value()["m_fLevelGapStandard"],
croc.value()["m_fSameGrade"], croc.value()["m_fOneGrade"], croc.value()["m_fTwoGrade"], croc.value()["m_fThreeGrade"] };
ItemManager::CrocPotTable[croc.value()["m_iLevelGap"]] = crocEntry;
}
std::cout << "[INFO] Loaded " << ItemManager::CrocPotTable.size() << " croc pot value sets" << std::endl;
//load nano info
nlohmann::json nanoInfo = xdtData["m_pNanoTable"]["m_pNanoData"];
for (nlohmann::json::iterator _nano = nanoInfo.begin(); _nano != nanoInfo.end(); _nano++) {
auto nano = _nano.value();
NanoData nanoData;
nanoData.style = nano["m_iStyle"];
NanoManager::NanoTable[nano["m_iNanoNumber"]] = nanoData;
}
std::cout << "[INFO] Loaded " << NanoManager::NanoTable.size() << " nanos" << std::endl;
}
catch (const std::exception& err) {
std::cerr << "[WARN] Malformed xdt.json file! Reason:" << err.what() << std::endl;
}
// load temporary mob dump
try {
std::ifstream inFile(settings::MOBJSON);
nlohmann::json npcData;
// read file into json
inFile >> npcData;
for (nlohmann::json::iterator _npc = npcData.begin(); _npc != npcData.end(); _npc++) {
auto npc = _npc.value();
auto td = NPCManager::NPCData[(int)npc["iNPCType"]];
Mob *tmp = new Mob(npc["iX"], npc["iY"], npc["iZ"], INSTANCE_OVERWORLD, npc["iNPCType"], npc["iHP"], npc["iAngle"], td, nextId);
NPCManager::NPCs[nextId] = tmp;
MobManager::Mobs[nextId] = (Mob*)NPCManager::NPCs[nextId];
NPCManager::updateNPCPosition(nextId, npc["iX"], npc["iY"], npc["iZ"]);
nextId++;
}
std::cout << "[INFO] Populated " << NPCManager::NPCs.size() << " NPCs" << std::endl;
}
catch (const std::exception& err) {
std::cerr << "[WARN] Malformed mobs.json file! Reason:" << err.what() << std::endl;
}
NPCManager::nextId = nextId;
}
/*
* Some item categories either don't possess iEquipLoc or use a different value for item type.
*/
int TableData::getItemType(int itemSet) {
int overriden;
switch (itemSet)
{
case 11: // Chest items don't have iEquipLoc and are type 9.
overriden = 9;
break;
case 10: // General items don't have iEquipLoc and are type 7.
overriden = 7;
break;
case 9: // Vehicles have iEquipLoc 8, but type 10.
overriden = 10;
break;
default:
overriden = -1;
}
return overriden;
}
/*
* Load paths from paths JSON.
*/
void TableData::loadPaths(int* nextId) {
try {
std::ifstream inFile(settings::PATHJSON);
nlohmann::json pathData;
// read file into json
inFile >> pathData;
// skyway paths
nlohmann::json pathDataSkyway = pathData["skyway"];
for (nlohmann::json::iterator skywayPath = pathDataSkyway.begin(); skywayPath != pathDataSkyway.end(); skywayPath++) {
constructPathSkyway(skywayPath);
}
std::cout << "[INFO] Loaded " << TransportManager::SkywayPaths.size() << " skyway paths" << std::endl;
// slider circuit
int sliders = 0;
nlohmann::json pathDataSlider = pathData["slider"];
for (nlohmann::json::iterator _sliderPoint = pathDataSlider.begin(); _sliderPoint != pathDataSlider.end(); _sliderPoint++) {
auto sliderPoint = _sliderPoint.value();
if (sliderPoint["stop"] && sliders % 2 == 0) { // check if this point in the circuit is a stop
// spawn a slider
BaseNPC* slider = new BaseNPC(sliderPoint["iX"], sliderPoint["iY"], sliderPoint["iZ"], 1, (*nextId)++, NPC_BUS);
NPCManager::NPCs[slider->appearanceData.iNPC_ID] = slider;
NPCManager::updateNPCPosition(slider->appearanceData.iNPC_ID, slider->appearanceData.iX, slider->appearanceData.iY, slider->appearanceData.iZ);
// set slider path to a rotation of the circuit
constructPathSlider(pathDataSlider, 0, slider->appearanceData.iNPC_ID);
sliders++;
}
}
// npc paths
nlohmann::json pathDataNPC = pathData["npc"];
for (nlohmann::json::iterator npcPath = pathDataNPC.begin(); npcPath != pathDataNPC.end(); npcPath++) {
constructPathNPC(npcPath);
}
std::cout << "[INFO] Loaded " << TransportManager::NPCQueues.size() << " NPC paths" << std::endl;
}
catch (const std::exception& err) {
std::cerr << "[WARN] Malformed paths.json file! Reason:" << err.what() << std::endl;
}
}
/*
* Create a full and properly-paced path by interpolating between keyframes.
*/
void TableData::constructPathSkyway(nlohmann::json::iterator _pathData) {
auto pathData = _pathData.value();
// Interpolate
nlohmann::json pathPoints = pathData["points"];
std::queue<WarpLocation> points;
nlohmann::json::iterator _point = pathPoints.begin();
auto point = _point.value();
WarpLocation last = { point["iX"] , point["iY"] , point["iZ"] }; // start pos
// use some for loop trickery; start position should not be a point
for (_point++; _point != pathPoints.end(); _point++) {
point = _point.value();
WarpLocation coords = { point["iX"] , point["iY"] , point["iZ"] };
TransportManager::lerp(&points, last, coords, pathData["iMonkeySpeed"]);
points.push(coords); // add keyframe to the queue
last = coords; // update start pos
}
TransportManager::SkywayPaths[pathData["iRouteID"]] = points;
}
void TableData::constructPathSlider(nlohmann::json points, int rotations, int sliderID) {
std::queue<WarpLocation> route;
std::rotate(points.begin(), points.begin() + rotations, points.end()); // rotate points
nlohmann::json::iterator _point = points.begin(); // iterator
auto point = _point.value();
WarpLocation from = { point["iX"] , point["iY"] , point["iZ"] }; // point A coords
int stopTime = point["stop"] ? SLIDER_STOP_TICKS : 0; // arbitrary stop length
for (_point++; _point != points.end(); _point++) { // loop through all point Bs
point = _point.value();
for (int i = 0; i < stopTime + 1; i++) // repeat point if it's a stop
route.push(from); // add point A to the queue
WarpLocation to = { point["iX"] , point["iY"] , point["iZ"] }; // point B coords
float curve = 1;
if (stopTime > 0) { // point A is a stop
curve = 2.0f;
} else if (point["stop"]) { // point B is a stop
curve = 0.35f;
}
TransportManager::lerp(&route, from, to, SLIDER_SPEED, curve); // lerp from A to B (arbitrary speed)
from = to; // update point A
stopTime = point["stop"] ? SLIDER_STOP_TICKS : 0;
}
std::rotate(points.rbegin(), points.rbegin() + rotations, points.rend()); // undo rotation
TransportManager::NPCQueues[sliderID] = route;
}
void TableData::constructPathNPC(nlohmann::json::iterator _pathData) {
auto pathData = _pathData.value();
// Interpolate
nlohmann::json pathPoints = pathData["points"];
std::queue<WarpLocation> points;
nlohmann::json::iterator _point = pathPoints.begin();
auto point = _point.value();
WarpLocation from = { point["iX"] , point["iY"] , point["iZ"] }; // point A coords
int stopTime = point["stop"];
for (_point++; _point != pathPoints.end(); _point++) { // loop through all point Bs
point = _point.value();
for(int i = 0; i < stopTime + 1; i++) // repeat point if it's a stop
points.push(from); // add point A to the queue
WarpLocation to = { point["iX"] , point["iY"] , point["iZ"] }; // point B coords
TransportManager::lerp(&points, from, to, pathData["iBaseSpeed"]); // lerp from A to B
from = to; // update point A
stopTime = point["stop"];
}
TransportManager::NPCQueues[pathData["iNPCID"]] = points;
}