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MaaAssistantArknights/src/MeoAssistant/Task/Sub/ProcessTask.cpp

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#include "ProcessTask.h"
#include <chrono>
#include <random>
#include <meojson/json.hpp>
#include "Controller.h"
#include "ImageAnalyzer/ProcessTaskImageAnalyzer.h"
#include "Resource/GeneralConfiger.h"
#include "RuntimeStatus.h"
#include "TaskData.h"
#include "Utils/AsstUtils.hpp"
#include "Utils/Logger.hpp"
using namespace asst;
asst::ProcessTask::ProcessTask(const AbstractTask& abs, std::vector<std::string> tasks_name)
: AbstractTask(abs), m_raw_tasks_name(std::move(tasks_name))
{
m_task_delay = Configer.get_options().task_delay;
m_basic_info_cache = json::value();
}
asst::ProcessTask::ProcessTask(AbstractTask&& abs, std::vector<std::string> tasks_name) noexcept
: AbstractTask(std::move(abs)), m_raw_tasks_name(std::move(tasks_name))
{
m_task_delay = Configer.get_options().task_delay;
m_basic_info_cache = json::value();
}
bool asst::ProcessTask::run()
{
if (!m_enable) {
Log.info("task disabled, pass", basic_info().to_string());
return true;
}
if (m_task_delay == TaskDelayUnsetted) {
m_task_delay = Configer.get_options().task_delay;
}
m_cur_tasks_name = m_raw_tasks_name;
for (m_cur_retry = 0; m_cur_retry <= m_retry_times; ++m_cur_retry) {
if (_run()) {
return true;
}
if (need_exit()) {
return false;
}
sleep(m_task_delay);
}
callback(AsstMsg::SubTaskError, basic_info());
return on_run_fails();
}
ProcessTask& asst::ProcessTask::set_task_delay(int delay) noexcept
{
m_task_delay = delay;
return *this;
}
asst::ProcessTask& asst::ProcessTask::set_tasks(std::vector<std::string> tasks_name) noexcept
{
m_cur_retry = 0;
m_raw_tasks_name = std::move(tasks_name);
m_pre_task_name.clear();
return *this;
}
ProcessTask& asst::ProcessTask::set_times_limit(std::string name, int limit, TimesLimitType type)
{
m_times_limit[std::move(name)] = TimesLimitData { limit, type };
return *this;
}
ProcessTask& asst::ProcessTask::set_rear_delay(std::string name, int delay)
{
m_rear_delay[std::move(name)] = delay;
return *this;
}
bool ProcessTask::_run()
{
LogTraceFunction;
while (!m_cur_tasks_name.empty()) {
if (need_exit()) {
return false;
}
if (m_cur_task_ptr && m_pre_task_name != m_cur_task_ptr->name) {
m_pre_task_name = m_cur_task_ptr->name;
}
json::value info = basic_info();
info["details"] = json::object {
{ "to_be_recognized", json::array(m_cur_tasks_name) },
{ "cur_retry", m_cur_retry },
{ "retry_times", m_retry_times },
};
Log.info(info.to_string());
auto front_task_ptr = Task.get(m_cur_tasks_name.front());
// 可能有配置错误,导致不存在对应的任务
if (front_task_ptr == nullptr) {
Log.error("Invalid task", m_cur_tasks_name.front());
return false;
}
Rect rect;
// 如果第一个任务是JustReturn的那就没必要再截图并计算了
if (front_task_ptr->algorithm == AlgorithmType::JustReturn) {
m_cur_task_ptr = front_task_ptr;
}
else {
const auto image = m_ctrler->get_image();
ProcessTaskImageAnalyzer analyzer(image, m_cur_tasks_name);
analyzer.set_status(m_status);
if (!analyzer.analyze()) {
return false;
}
m_cur_task_ptr = analyzer.get_result();
rect = analyzer.get_rect();
}
if (need_exit()) {
return false;
}
std::string cur_name = m_cur_task_ptr->name;
const auto& res_move = m_cur_task_ptr->rect_move;
if (!res_move.empty()) {
rect = rect.move(res_move);
}
int& exec_times = m_exec_times[cur_name];
int max_times = m_cur_task_ptr->max_times;
TimesLimitType limit_type = TimesLimitType::Pre;
{
std::string cur_base_name = cur_name;
while (true) {
if (auto iter = m_times_limit.find(cur_base_name); iter != m_times_limit.cend()) {
max_times = iter->second.times;
limit_type = iter->second.type;
break;
}
if (size_t at_pos = cur_base_name.find('@'); at_pos == std::string::npos) {
break;
}
else {
cur_base_name = cur_base_name.substr(at_pos + 1);
}
}
}
if (limit_type == TimesLimitType::Pre && exec_times >= max_times) {
info["what"] = "ExceededLimit";
info["details"] = json::object {
{ "task", cur_name },
{ "exec_times", exec_times },
{ "max_times", max_times },
{ "limit_type", "pre" },
};
Log.info("exec times exceeded the limit", info.to_string());
callback(AsstMsg::SubTaskExtraInfo, info);
m_cur_tasks_name = m_cur_task_ptr->exceeded_next;
sleep(m_task_delay);
continue;
}
m_cur_retry = 0;
++exec_times;
info["details"] = json::object {
{ "task", cur_name },
{ "action", static_cast<int>(m_cur_task_ptr->action) },
{ "exec_times", exec_times },
{ "max_times", max_times },
{ "algorithm", static_cast<int>(m_cur_task_ptr->algorithm) },
};
callback(AsstMsg::SubTaskStart, info);
// 前置固定延时
if (!sleep(m_cur_task_ptr->pre_delay)) {
return false;
}
bool need_stop = false;
switch (m_cur_task_ptr->action) {
case ProcessTaskAction::ClickRect:
rect = m_cur_task_ptr->specific_rect;
[[fallthrough]];
case ProcessTaskAction::ClickSelf:
exec_click_task(rect);
break;
case ProcessTaskAction::ClickRand: {
auto&& [width, height] = m_ctrler->get_scale_size();
const Rect full_rect(0, 0, width, height);
exec_click_task(full_rect);
} break;
case ProcessTaskAction::SwipeToTheLeft:
case ProcessTaskAction::SwipeToTheRight:
exec_swipe_task(m_cur_task_ptr->action);
break;
case ProcessTaskAction::SlowlySwipeToTheLeft:
case ProcessTaskAction::SlowlySwipeToTheRight:
exec_slowly_swipe_task(m_cur_task_ptr->action);
break;
case ProcessTaskAction::DoNothing:
break;
case ProcessTaskAction::Stop:
Log.info("stop action", info.to_string());
need_stop = true;
break;
default:
break;
}
m_status->set_number("Last" + cur_name, time(nullptr));
// 减少其他任务的执行次数
// 例如,进入吃理智药的界面了,相当于上一次点蓝色开始行动没生效
// 所以要给蓝色开始行动的次数减一
for (const std::string& reduce : m_cur_task_ptr->reduce_other_times) {
auto& v = m_exec_times[reduce];
if (v > 0) {
--v;
Log.trace("Task `", m_cur_task_ptr->name, "` reduce `", reduce, "` times to ", v);
}
else {
Log.trace("Task `", m_cur_task_ptr->name, "` attempt to reduce `", reduce,
"` times, but it is already 0");
}
}
// 后置固定延时
int rear_delay = m_cur_task_ptr->rear_delay;
if (auto iter = m_rear_delay.find(cur_name); iter != m_rear_delay.cend()) {
rear_delay = iter->second;
}
if (!sleep(rear_delay)) {
return false;
}
for (const std::string& sub : m_cur_task_ptr->sub) {
LogTraceScope("Sub: " + sub);
bool sub_ret = ProcessTask(*this, { sub }).run();
if (!sub_ret && !m_cur_task_ptr->sub_error_ignored) {
Log.error("Sub error and not ignored", sub);
// 子任务如果失败了,一定已经经历过子任务自己的 m_retry_times 次重试了
// 这时候即使再重试父任务也没有意义,直接把父任务也跟着报错出去
m_cur_retry = m_retry_times;
return false;
}
}
callback(AsstMsg::SubTaskCompleted, info);
if (limit_type == TimesLimitType::Post && exec_times >= max_times) {
info["what"] = "ExceededLimit";
info["details"] = json::object {
{ "task", cur_name },
{ "exec_times", exec_times },
{ "max_times", max_times },
{ "limit_type", "post" },
};
Log.info("exec times exceeded the limit", info.to_string());
callback(AsstMsg::SubTaskExtraInfo, info);
m_cur_tasks_name = m_cur_task_ptr->exceeded_next;
sleep(m_task_delay);
continue;
}
if (m_cur_task_ptr->next.empty()) {
need_stop = true;
}
if (need_stop) {
return true;
}
m_cur_tasks_name = m_cur_task_ptr->next;
sleep(m_task_delay);
}
return true;
}
bool asst::ProcessTask::on_run_fails()
{
LogTraceFunction;
if (!m_cur_task_ptr || m_cur_task_ptr->on_error_next.empty()) {
return false;
}
set_tasks(m_cur_task_ptr->on_error_next);
return run();
}
json::value asst::ProcessTask::basic_info() const
{
return AbstractTask::basic_info() |
json::object { { "first", json::array(m_raw_tasks_name) }, { "pre_task", m_pre_task_name } };
}
void ProcessTask::exec_click_task(const Rect& matched_rect)
{
m_ctrler->click(matched_rect);
}
void asst::ProcessTask::exec_swipe_task(ProcessTaskAction action)
{
const auto&& [width, height] = m_ctrler->get_scale_size();
const static Rect right_rect(static_cast<int>(width * 0.8), static_cast<int>(height * 0.4),
static_cast<int>(width * 0.1), static_cast<int>(height * 0.2));
const static Rect left_rect(static_cast<int>(width * 0.1), static_cast<int>(height * 0.4),
static_cast<int>(width * 0.1), static_cast<int>(height * 0.2));
switch (action) {
case asst::ProcessTaskAction::SwipeToTheLeft:
m_ctrler->swipe(left_rect, right_rect);
break;
case asst::ProcessTaskAction::SwipeToTheRight:
m_ctrler->swipe(right_rect, left_rect);
break;
default: // 走不到这里TODO 报个错
break;
}
}
void asst::ProcessTask::exec_slowly_swipe_task(ProcessTaskAction action)
{
LogTraceFunction;
static Rect right_rect = Task.get("ProcessTaskSlowlySwipeRightRect")->specific_rect;
static Rect left_rect = Task.get("ProcessTaskSlowlySwipeLeftRect")->specific_rect;
static int duration = Task.get("ProcessTaskSlowlySwipeRightRect")->pre_delay;
static int extra_delay = Task.get("ProcessTaskSlowlySwipeRightRect")->rear_delay;
switch (action) {
case asst::ProcessTaskAction::SlowlySwipeToTheLeft:
m_ctrler->swipe(left_rect, right_rect, duration, true, extra_delay, true);
break;
case asst::ProcessTaskAction::SlowlySwipeToTheRight:
m_ctrler->swipe(right_rect, left_rect, duration, true, extra_delay, true);
break;
default: // 走不到这里TODO 报个错
break;
}
}