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js: 精英规划、小怪规划、自动消耗复活药 (#741)

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* 三个js更新

精英js:跟进死亡笔记400的路线包

* js;欸起飞,飞

* fix: 重命名

---------

Co-authored-by: 秋云 <physligl@gmail.com>
This commit is contained in:
mno
2025-05-08 23:19:14 +08:00
committed by GitHub
parent 881188012e
commit 22ba06b7c8
312 changed files with 2723 additions and 562 deletions
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318
repo/js/自动精英锄地规划/main.js Normal file
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(async function () {
// 初始化配置
const operationType = settings.operationType || "生成路径组文件"; // 操作模式
let excludeTagsForPathGroup1 = settings.excludeTagsForPathGroup1 || ""; // 路径组1排除标签
let selectTagsForPathGroup2 = settings.selectTagsForPathGroup2 || ""; // 路径组2选择标签
let selectTagsForPathGroup3 = settings.selectTagsForPathGroup3 || ""; // 路径组3选择标签
const disableAutoPickup = settings.disableAutoPickup || false; // 是否禁用自动拾取
const enableRouteCdCheck = settings.enableRouteCdCheck || false; // 是否启用路线CD检测
const requiredMonsterCount = parseInt(settings.requiredMonsterCount, 10) || 405; // 目标怪物数量
const minSecPerMonster = parseFloat(settings.minSecPerMonster) || 0.1; // 最低秒均
// 初始化文件路径(直接内置生成)
const indexPath = 'index.txt';
const pathingDir = 'pathing/';
const routeDir = 'route/';
// 定义需要检查的字段
const tags = ["水免", "次数盾", "传奇", "高危"];
// 标准化 excludeTagsForPathGroup1
excludeTagsForPathGroup1 = tags.filter(tag => excludeTagsForPathGroup1.includes(tag)).join('.');
// 标准化 selectTagsForPathGroup2
selectTagsForPathGroup2 = tags.filter(tag => selectTagsForPathGroup2.includes(tag)).join('.');
// 标准化 selectTagsForPathGroup3
selectTagsForPathGroup3 = tags.filter(tag => selectTagsForPathGroup3.includes(tag)).join('.');
// 日志输出配置信息
log.info(`配置信息:操作类型=${operationType}, 路径组1排除标签=${excludeTagsForPathGroup1}, 路径组2选择标签=${selectTagsForPathGroup2}, 路径组3选择标签=${selectTagsForPathGroup3}, 是否禁用自动拾取=${disableAutoPickup}, 是否启用路线CD检测=${enableRouteCdCheck}, 目标怪物数量=${requiredMonsterCount}, 最低秒均=${minSecPerMonster}`);
// 生成默认的文件夹/文件名
let outputFolderName = `${requiredMonsterCount}-${excludeTagsForPathGroup1}-${selectTagsForPathGroup2}-${selectTagsForPathGroup3}-${minSecPerMonster}`;
// 初始化一个变量,用于判断是否是执行路径组文件的模式
let executePathGroupMode = 0;
// 分别检验是否是执行路径组文件1、执行路径组文件2、执行路径组文件3
if (operationType === "执行路径组文件1") {
executePathGroupMode = 1;
} else if (operationType === "执行路径组文件2") {
executePathGroupMode = 2;
} else if (operationType === "执行路径组文件3") {
executePathGroupMode = 3;
}
// 如果是执行路径组文件的模式
if (executePathGroupMode > 0) {
// 检查是否禁用了自动拾取
if (!disableAutoPickup) {
// 启用自动拾取
dispatcher.addTimer(new RealtimeTimer("AutoPick"));
} else {
// 禁用自动拾取
log.warn("自动拾取已禁用");
}
// 根据 executePathGroupMode 获取路径组编号
const pathGroupNumber = executePathGroupMode;
// 构造路径组文件路径
const pathGroupFilePath = `${routeDir}路径组${pathGroupNumber}-${outputFolderName}.txt`;
try {
// 读取路径组文件内容
const pathGroupContent = await file.readText(pathGroupFilePath);
const pathLines = pathGroupContent.trim().split('\n'); // 定义 pathLines 变量
// 遍历路径名称列表,依次执行每个路径
for (let i = 0; i < pathLines.length; i++) {
const pathLine = pathLines[i];
// 解析路径名称和后面的 ISO 时间字符串
const [pathName, pathCD] = pathLine.split('::').map(part => part.trim());
const pathFilePath = `${pathingDir}${pathName}.json`;
// 获取当前时间
const now = new Date();
const startTime = now.toISOString(); // 获取开始时间
// 如果启用了路线CD检测检查当前时间是否不早于附加时间戳
if (enableRouteCdCheck) {
const pathCDDate = new Date(pathCD); // 将附加时间戳转换为Date对象
if (now < pathCDDate) {
log.info(`当前路线 ${pathName} 为第 ${i + 1}/${pathLines.length} 个,当前路线未刷新,放弃该路径`);
continue; // 放弃该路径
}
}
log.info(`当前路线 ${pathName} 为第 ${i + 1}/${pathLines.length}当前路线已刷新或未启用cd检测执行路径`);
// 执行路径文件
await pathingScript.runFile(pathFilePath);
// 获取结束时间
const endTime = new Date();
const endTimeISO = endTime.toISOString(); // 获取结束时间
// 检查执行时间是否超过10秒
const executionTime = endTime.getTime() - now.getTime();
// 如果启用了CD检测且结束时间与开始时间相差超过10秒则更新附加时间戳为开始时间后的第一个凌晨四点
if (enableRouteCdCheck && executionTime > 10000) {
// 计算开始时间后的第一个晚上八点
const nextEveningEight = new Date(startTime);
nextEveningEight.setHours(4, 0, 0, 0); // 设置时间为凌晨四点0分0秒0毫秒
if (nextEveningEight <= new Date(startTime)) {
// 如果设置的时间小于等于开始时间,说明需要取下一个晚上八点
nextEveningEight.setHours(4 + 24, 0, 0, 0); // 设置时间为下一个晚上八点0分0秒0毫秒
}
// 转换为北京时间UTC+8
const nextEveningEightBeijing = new Date(nextEveningEight.getTime() + 0 * 3600 * 1000);
const nextEveningEightBeijingFormatted = `${nextEveningEightBeijing.getFullYear()}-${String(nextEveningEightBeijing.getMonth() + 1).padStart(2, '0')}-${String(nextEveningEightBeijing.getDate()).padStart(2, '0')} ${String(nextEveningEightBeijing.getHours()).padStart(2, '0')}:${String(nextEveningEightBeijing.getMinutes()).padStart(2, '0')}:${String(nextEveningEightBeijing.getSeconds()).padStart(2, '0')}`;
// 更新路径组文件中的附加时间戳
pathLines[i] = `${pathName}::${nextEveningEight.toISOString()}`;
log.info(`当前路线 ${pathName} 执行完成,下一次可用时间更新为:${nextEveningEightBeijingFormatted}`);
// 将更新后的内容写回路径组文件
const updatedPathGroupContent = pathLines.join('\n');
await file.writeText(pathGroupFilePath, updatedPathGroupContent);
} else {
log.info(`当前路线 ${pathName} 执行完成但不更新可用时间因为执行时间不足10秒或未启用cd检测。`);
}
}
} catch (error) {
log.error(`读取路径组文件失败:${error}`);
process.exit(1); // 退出程序
}
// 执行完成后退出程序
return;
}
// 否则:进行排序、筛选和选取路径
let totalMonsterCount = 0;
try {
const indexContent = await file.readText(indexPath);
const pathingFiles = indexContent.trim().split('\n').slice(1).map(line => {
const data = line.trim().split('\t');
if (data.length !== 10) {
log.warn(`不符合预期格式的行:${line}`);
return null;
}
return {
legendary: parseInt(data[0], 10) === 1,
waterFree: parseInt(data[1], 10) === 1,
timeshield: parseInt(data[2], 10) === 1,
highRisk: parseInt(data[3], 10) === 1,
monsterCount: parseFloat(data[4]),
secPerMonster: parseFloat(data[8]),
name: data[9].trim(),
group: 0 // 新增 group 参数,初始值为 0
};
}).filter(route => route !== null);
// 筛选和排序路径
const priority600Routes = pathingFiles
.filter(route => route.name.includes('600'))
.sort((a, b) => {
if (a.secPerMonster === b.secPerMonster) {
return a.monsterCount - b.monsterCount; // 次要排序依据:怪物数量升序
}
return b.secPerMonster - a.secPerMonster; // 主要排序依据:秒均降序
});
const priority400Routes = pathingFiles
.filter(route => !priority600Routes.includes(route) && route.name.includes('400'))
.sort((a, b) => {
if (a.secPerMonster === b.secPerMonster) {
return a.monsterCount - b.monsterCount; // 次要排序依据:怪物数量升序
}
return b.secPerMonster - a.secPerMonster; // 主要排序依据:秒均降序
});
const remainingRoutes = pathingFiles
.filter(route => !priority600Routes.includes(route) && !priority400Routes.includes(route))
.sort((a, b) => {
if (a.secPerMonster === b.secPerMonster) {
return a.monsterCount - b.monsterCount; // 次要排序依据:怪物数量升序
}
return b.secPerMonster - a.secPerMonster; // 主要排序依据:秒均降序
});
// 合并所有路径
const sortedRoutes = [...priority600Routes, ...priority400Routes, ...remainingRoutes];
// 分配路径到路径组
const pathGroups = [[], [], []];
for (const path of sortedRoutes) {
if (totalMonsterCount >= requiredMonsterCount) {
break;
}
// 为每个路径组生成一个对应的字符串
const excludeTags1 = excludeTagsForPathGroup1.split('.');
const excludeTags1String = excludeTags1.map(tag => {
switch (tag) {
case "传奇":
return path.legendary ? '1' : '0';
case "水免":
return path.waterFree ? '1' : '0';
case "次数盾":
return path.timeshield ? '1' : '0';
case "高危":
return path.highRisk ? '1' : '0';
default:
return '0';
}
}).join('');
const selectTags2 = selectTagsForPathGroup2.split('.');
const selectTags2String = selectTags2.map(tag => {
switch (tag) {
case "传奇":
return path.legendary ? '1' : '0';
case "水免":
return path.waterFree ? '1' : '0';
case "次数盾":
return path.timeshield ? '1' : '0';
case "高危":
return path.highRisk ? '1' : '0';
default:
return '0';
}
}).join('');
const selectTags3 = selectTagsForPathGroup3.split('.');
const selectTags3String = selectTags3.map(tag => {
switch (tag) {
case "传奇":
return path.legendary ? '1' : '0';
case "水免":
return path.waterFree ? '1' : '0';
case "次数盾":
return path.timeshield ? '1' : '0';
case "高危":
return path.highRisk ? '1' : '0';
default:
return '0';
}
}).join('');
// 检查路径是否符合路径组1的条件
const excludeTags1Mask = excludeTags1.map(tag => tag === '1' ? '1' : '0').join('');
if (excludeTags1String === excludeTags1Mask) { // 反转逻辑如果路径包含任何排除标签则入选路径组1
path.group = 1;
pathGroups[0].push(path);
totalMonsterCount += path.monsterCount;
continue;
}
// 检查路径是否符合路径组2的条件
const selectTags2Mask = selectTags2.map(tag => tag === '1' ? '1' : '0').join('');
if (selectTags2String !== selectTags2Mask) { // 反转逻辑如果路径不包含任何选择的标签则入选路径组2
path.group = 2;
pathGroups[1].push(path);
totalMonsterCount += path.monsterCount;
continue;
}
// 检查路径是否符合路径组3的条件
const selectTags3Mask = selectTags3.map(tag => tag === '1' ? '1' : '0').join('');
if (selectTags3String !== selectTags3Mask) { // 反转逻辑如果路径不包含任何选择的标签则入选路径组3
path.group = 3;
pathGroups[2].push(path);
totalMonsterCount += path.monsterCount;
continue;
}
}
// 再次根据 operationType 决定生成路径组文件还是输出地图追踪文件
if (operationType === "生成路径组文件") {
// 生成路径组文件的逻辑
for (let i = 0; i < 3; i++) {
const pathGroup = pathGroups[i];
const pathGroupFilePath = `${routeDir}路径组${i + 1}-${outputFolderName}.txt`;
if (pathGroup.length > 0) {
// 按照 index.txt 中的顺序输出路径,并在每个路径名称后添加 "2000-01-01T00:00:00.000Z",以初始化cd信息
const sortedPathNames = pathingFiles
.filter(path => pathGroup.some(groupPath => groupPath.name === path.name))
.map(path => `${path.name}::2000-01-01T00:00:00.000Z`);
const pathGroupContent = sortedPathNames.join('\n');
await file.writeText(pathGroupFilePath, pathGroupContent);
log.info(`生成并刷新路径组${i + 1}文件成功,路径数:${sortedPathNames.length}`);
}
}
} else if (operationType === "输出地图追踪文件") {
// 输出地图追踪文件的逻辑
for (let i = 0; i < 3; i++) {
const pathGroup = pathGroups[i];
const outputFolder = `pathingout/${outputFolderName}/路径组${i + 1}`;
let successCount = 0;
let failCount = 0;
for (const path of pathGroup) {
const sourceFilePath = `${pathingDir}${path.name}.json`;
const targetFilePath = `${outputFolder}/${path.name}.json`;
try {
const fileContent = await file.readText(sourceFilePath);
await file.writeText(targetFilePath, fileContent);
successCount++;
} catch (error) {
log.warn(`复制 ${sourceFilePath}${targetFilePath} 失败:${error}`);
failCount++;
}
}
log.info(`路径组${i + 1}复制完成:成功 ${successCount} 个,失败 ${failCount}`);
}
}
} catch (error) {
log.error(`读取索引文件失败:${error}`);
}
})();