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#include "gstate_mgr.hpp"
#include "app_event_bus.hpp"
using namespace std;using namespace iflytop;#define TAG "GSM"
#define GSM GStateMgr::ins()
void GStateMgr::initialize() { m_mutex.init(); }
/***********************************************************************************************************************
* USER * ***********************************************************************************************************************/void GStateMgr::setLogin(int loginUsrId, const char* usrName, user_role_t role) { zlock_guard l(m_mutex); m_loginUsrType = role; m_isLogin = true; strncpy(this->m_loginUsr, usrName, MAX_USR_NAME_SIZE); m_loginUsrId = loginUsrId;}void GStateMgr::setUnLogin() { zlock_guard l(m_mutex); m_isLogin = false; m_loginUsrType = kuser; memset(m_loginUsr, 0, sizeof(m_loginUsr));}
bool GStateMgr::isLogin() { zlock_guard l(m_mutex); return m_isLogin;}user_role_t GStateMgr::getLoginUsrType() { zlock_guard l(m_mutex); return m_loginUsrType;}const char* GStateMgr::getLoginUsr() { zlock_guard l(m_mutex); return m_loginUsr;}
int GStateMgr::getUserId() { zlock_guard l(m_mutex); return m_loginUsrId;}
void GStateMgr::setRemoterHeart(int32_t state, uint8_t* heart_data) { zlock_guard l(m_mutex); AppEvent appevent;
m_RemoterS = state; appevent.type = kAE_RemoterHeartEvent; appevent.setHeartInfo(heart_data); AppEventBus::ins()->pushEvent(appevent);}
//
void GStateMgr::setRemoterS(int32_t state, const char* name) { zlock_guard l(m_mutex); AppEvent appevent;
m_RemoterS = state; if (state) { ZLOGI(TAG, "on ble connect -> client name:%s", name); strncpy(m_RemoterName, name, sizeof(m_RemoterName)); // strncpy(appevent.d.bleName, name, sizeof(appevent.d.bleName));
appevent.type = kAE_RemoterConnectedEvent;
} else { ZLOGI(TAG, "on ble disconnect"); appevent.type = kAE_RemoterDisConnectedEvent; } AppEventBus::ins()->pushEvent(appevent);}const char* GStateMgr::getRemoterName() { zlock_guard l(m_mutex); return m_RemoterName;}
void GStateMgr::setRunMode(hand_acid_mode_t mode) { zlock_guard l(m_mutex); if (m_RunMode != mode) { m_RunMode = mode; AppEventBus::ins()->pushSimpleEvent(kAE_RunModeChangeEvent); }}void GStateMgr::changeToNextRunMode() { zlock_guard l(m_mutex);
if (m_RunMode == khand_acid_m_jog_mode) { setRunMode(khand_acid_m_continuous_mode); } else { setRunMode(khand_acid_m_jog_mode); }}
int32_t GStateMgr::getRemoterS() { zlock_guard l(m_mutex); return m_RemoterS;}hand_acid_mode_t GStateMgr::getRunMode() { zlock_guard l(m_mutex); return m_RunMode;}
void GStateMgr::setPumpSelectState(int32_t index, bool state) { zlock_guard l(m_mutex); m_pumpSelectState[index] = state;}bool GStateMgr::getPumpSelectState(int32_t index) { zlock_guard l(m_mutex); return m_pumpSelectState[index];}float GStateMgr::getAcidRemain(int32_t index) { zlock_guard l(m_mutex); return acidRemain[index]; // add 0.5 for force change to int
}float GStateMgr::getAcidUsed(int32_t index) { zlock_guard l(m_mutex); return acidUsed[index]; // add 0.5 for force change to int
}
bool GStateMgr::isHasPumpSelect() { zlock_guard l(m_mutex); for (int i = 0; i < 4; i++) { if (m_pumpSelectState[i]) { return true; } } return false;}
void GStateMgr::setAcidRemain(int32_t index, float val) { zlock_guard l(m_mutex); acidRemain[index] = val;}void GStateMgr::setAcidUsed(int32_t index, float val) { zlock_guard l(m_mutex); acidUsed[index] = val;}
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