livingroom Ctl

livingRoomCtl/livingRoomCtl.ino

@@ -8,13 +8,20 @@
 #define WIFI_PASSWD "1234567890."
 
 // Pins Log ID
-#define W_DEVICE_ID ""
-#define W_LIGHT_ID "dd"
-#define W_SWI_ID ""
+#define W_DEVICE_ID "5"
+#define W_LIGHT_ID "L2"
+#define W_SWI_ID "S2"
 #define W_TEMP_ID ""
 #define W_HUM_ID ""
-#define W_BUZ_ID ""
-#define W_R1_ID ""
+#define W_TEL_ID ""
+#define W_R1_ID "R9"
+#define W_R2_ID "R10"
+#define W_R3_ID "R11"
+#define W_R4_ID "R12"
+#define W_LED_ID "l3"
+#define W_BUZ_ID "B2"
+#define W_LS_ID "Ls1"
+
 
 
 // Set as WIFI mode
@@ -24,13 +31,30 @@
 // Include Blinker lib
 #include <Blinker.h>
 
+
 // Correspond Pins to Tag
 #define lightCtl D5 //Control the light
 #define swiIn D4 // Pins for Check the switch state :: signal In
 #define swiOut D8 // Pins for Check the switch state :: signal Out
+#define rSnsr1 D6 // Pins for searching people
+#define rSnsr2 D13 // Pins for searching people
+#define rSnsr3 D11
+#define rSnsr4 D12
+#define led D0
+#define lightSnsr A0 //detect the light
+#define Buz D10 // Pins for buzz
 
-// Parameter Define
+// Parameter Define 
 #define SWI_TRY_TIMES 300
+#define SWI_ACTION_DELAY 30
+#define UDOOR_OPEN_DELAY_TIME 800
+#define LED_BLINK_FREQUENCY 10
+#define LED_WARNING_FREQUENCY 800
+#define MIN_DIRECT_CHANGE_TIME 10000
+#define NO_PEOPLE_DELAY 28000
+#define SHUTDOWN_LIGHT_DELAY 10000
+#define ICE_TIME 300000
+#define OFFLINE_TIME_LIMIT 15000
 
 
 // Set wifi and MQTT config
@@ -41,10 +65,25 @@ char pswd[] = WIFI_PASSWD;
 // load module
 BlinkerButton wIoT("wIoT");
 BlinkerButton lightCtlBtn("btn-light");
+BlinkerButton ledBtn("led");
+BlinkerButton wledBtn("w-light");
+BlinkerButton walert("w-alert");
 
 
 // declare global var
-int swiStatus=0;
+int swiStatus = 0;
+int uDoorTelStatus = 0;
+int rSnsr1Status,rSnsr2Status,rSnsr3Status,rSnsr4Status = 0;
+int isPeople = 0;
+int noPeople = 0;
+int hallDir = 0;
+int PeopleChangeTime = 0;
+int ledStatus = -1;
+int Mode = 0;
+int Ice = 0;
+int IceTime = 0;
+int LastCnnctTime = 0;
+int Alert = 0;
 
 /******** Custom Functions *********/
 
@@ -55,7 +94,7 @@ int light_ctl(int cmd)
   if(cmd == 0)
   {
     digitalWrite(lightCtl, HIGH);
-    if(digitalRead(lightCtl) == HIGH) {BLINKER_LOG("Run Funtion light_ctl :: light Shutdown");update_light_btn();return 1;}
+    if(digitalRead(lightCtl) == HIGH) {BLINKER_LOG("Run Funtion light_ctl :: light Shutdown");update_light_btn();/*Blinker.delay(SHUTDOWN_LIGHT_DELAY);*/return 1;}
     else {BLINKER_LOG("ERROR in Funtion light_ctl :: when light Shutdown");return 0;}
   }
   if(cmd == 1)
@@ -68,12 +107,13 @@ int light_ctl(int cmd)
   {
     int lightStatus = digitalRead(lightCtl);
     digitalWrite(lightCtl, !lightStatus);
-    if(digitalRead(lightCtl) != lightStatus) {BLINKER_LOG("Run Funtion light_ctl :: light Switch");update_light_btn();return 1;}
+    if(digitalRead(lightCtl) != lightStatus) {BLINKER_LOG("Run Funtion light_ctl :: light Switch");update_light_btn();ice_set();return 1;}
     else {BLINKER_LOG("ERROR in Funtion light_ctl :: when light Switch");return 0;}
   }
   return 0;
 }
 
+
 //function for get light info :: ::return 0(shutdown),1(open)
 int get_light_status()
 {
@@ -128,6 +168,176 @@ int get_swi_status()
   else if(swiEff == 0) return 0;
   else return swiStatus;
 }
+/*** rSnsr functions ***/
+// 
+int is_People()
+{
+  int rCnt=0;
+  int change=0;
+  int t_rSnsr1Status,t_rSnsr2Status,t_rSnsr3Status,t_rSnsr4Status = 0;
+  
+  t_rSnsr1Status = digitalRead(rSnsr1);
+  t_rSnsr2Status = digitalRead(rSnsr2);
+  t_rSnsr3Status = digitalRead(rSnsr3);
+  t_rSnsr4Status = digitalRead(rSnsr4);
+  
+  if(t_rSnsr1Status == HIGH) {if(rSnsr1Status != t_rSnsr1Status)change=1;rCnt++;}
+  else if(rSnsr1Status != t_rSnsr1Status)change=1;
+  if(t_rSnsr2Status == HIGH) {if(rSnsr2Status != t_rSnsr2Status)change=1;rCnt++;}
+  else if(rSnsr2Status != t_rSnsr2Status)change=1;
+  if(t_rSnsr3Status == HIGH) {if(rSnsr3Status != t_rSnsr3Status)change=1;rCnt++;}
+  else if(rSnsr3Status != t_rSnsr3Status)change=1;
+  if(t_rSnsr4Status == HIGH) {if(rSnsr4Status != t_rSnsr4Status)change=1;rCnt++;}
+  else if(rSnsr4Status != t_rSnsr4Status)change=1;
+
+  rSnsr1Status = t_rSnsr1Status;
+  rSnsr2Status = t_rSnsr2Status;
+  rSnsr3Status = t_rSnsr3Status;
+  rSnsr4Status = t_rSnsr4Status;
+
+  if(change) rSnsr_data();
+
+  if(rCnt >= 1) return 1;
+  else return 0;
+}
+
+int no_People()
+{
+  if(!rSnsr1Status && !rSnsr2Status && !rSnsr3Status && !rSnsr4Status && PeopleChangeTime < millis()-NO_PEOPLE_DELAY) return 1;
+  else return 0;
+}
+
+void rSnsr_data()
+{
+  //static int  t_ice = 0;
+  /*if(rSnsr1Status == HIGH) txtR1.print("r1","有人经过");
+  else txtR1.print("r1","无人");
+  if(rSnsr2Status == HIGH) txtR2.print("r2","有人经过");
+  else txtR2.print("r2","无人");
+  if(rSnsr3Status == HIGH) txtR3.print("r3","有人经过");
+  else txtR3.print("r3","无人");
+  if(rSnsr4Status == HIGH) txtR4.print("r4","有人经过");
+  else txtR4.print("r4","无人");
+  if((rSnsr1Status+rSnsr2Status+rSnsr3Status+rSnsr4Status>=2)&&(rSnsr1Status&&rSnsr2Status)&&(rSnsr3Status||rSnsr4Status)) {if(t_ice < millis()-MIN_DIRECT_CHANGE_TIME || hallDir == 1){txtDir.print("方向","出");hallDir=1;t_ice=millis();}}
+  else if((rSnsr1Status+rSnsr2Status+rSnsr3Status+rSnsr4Status>=2)&&(rSnsr1Status||rSnsr2Status)&&(rSnsr3Status&&rSnsr4Status)) {if(t_ice < millis()-MIN_DIRECT_CHANGE_TIME || hallDir == -1){txtDir.print("方向","进");hallDir=-1;t_ice=millis();}}
+  else if(!rSnsr1Status&&rSnsr2Status&&!rSnsr3Status&&rSnsr4Status) {txtDir.print("方向","未知");hallDir=0;}
+  else hallDir=0;*/
+  PeopleChangeTime = millis();
+  ice_refresh();
+}
+
+
+/*** led functions ***/
+
+// function for control led :: 0(shutdown),1(open)
+int led_ctl(int cmd)
+{
+  if(cmd == 0 && ledStatus == 0)
+  {
+    digitalWrite(led, LOW);
+    if(digitalRead(led) == LOW) {BLINKER_LOG("Run Funtion led_ctl :: led Shutdown");return 1;}
+    else {BLINKER_LOG("ERROR in Funtion led_ctl :: when led Shutdown");return 0;}
+  }
+  if(cmd == 1 && ledStatus == 0)
+  {
+    digitalWrite(led, HIGH);
+    if(digitalRead(led) == HIGH) {BLINKER_LOG("Run Funtion led_ctl :: led Open");ledStatus=1;return 1;}
+    else {BLINKER_LOG("ERROR in Funtion led_ctl :: when led Open");return 0;}
+  }
+  return 0;
+}
+
+void led_blink()
+{
+  if(is_People())
+    if(ledStatus == 1)
+      {analogWrite(led, (millis()/LED_BLINK_FREQUENCY)%255);}
+}
+
+void led_warning()
+{
+  if(ledStatus == -1)
+    if(millis()%LED_WARNING_FREQUENCY>LED_WARNING_FREQUENCY/2) digitalWrite(led, HIGH);
+    else digitalWrite(led, LOW);
+}
+
+void led_core()
+{
+  led_blink();
+  led_warning();
+  if(Mode==1&&ledStatus!=-1) ledStatus = 0;
+  if(Mode==0&&ledStatus !=-1) ledStatus = 1;
+}
+
+/*** ICE function ***/
+void ice_core()
+{
+  static int t_ice=0;
+  if(Ice==1&&t_ice==0)
+  {
+    IceTime = millis();
+    t_ice=1;
+  }
+  if(Ice == 0)
+    t_ice=0;
+  if(Ice==1&&millis()>IceTime+ICE_TIME)
+    {
+      Ice=0;
+      t_ice=0;
+      light_ctl(0);
+    }
+}
+
+void ice_set()
+{
+  Ice = 1;
+  IceTime = millis();
+}
+
+void ice_remove()
+{
+  Ice =0;
+}
+void ice_refresh()
+{
+  IceTime = millis();
+}
+
+
+/*** alert function ***/
+void alert_core()
+{
+  if(Alert) tone(Buz, ((int)millis()/100)%399);
+  else noTone(Buz);
+}
+
+/******** wIoT Functions **************/
+
+void wlight_ctl(int cmd)
+{
+  if(cmd == 0)
+  {
+    if(Mode == 0&&Ice == 0) light_ctl(0);
+    if(Mode == 1&&Ice == 0) {light_ctl(0);led_ctl(0);}
+  }
+  if(cmd == 1)
+  {
+    if(Mode == 0&& Ice == 0) light_ctl(1);
+    if(Mode == 1&& Ice == 0) {light_ctl(0);led_ctl(1);}
+  }
+}
+
+void wconnect_status()
+{
+  static int former=0;
+  if(millis()>LastCnnctTime+OFFLINE_TIME_LIMIT) {former=ledStatus;ledStatus = -1;}
+  else if(ledStatus == -1&&former!=-1)ledStatus=former;
+  else ledStatus=1;
+}
+
+
+
+
 /******** Blinker Attached Function *********/
 //
 void lightCtlBtn_callback(const String & state)
@@ -148,6 +358,25 @@ void lightCtlBtn_callback(const String & state)
     }
 }
 
+void ledBtn_callback(const String & state)
+{
+  if (state == BLINKER_CMD_ON) digitalWrite(led, HIGH);
+  if (state == BLINKER_CMD_OFF) digitalWrite(led, LOW);
+  if (state == BLINKER_CMD_BUTTON_TAP) digitalWrite(led, !digitalRead(led));
+}
+
+void wledBtn_callback(const String & state)
+{
+  if (state == "1") wlight_ctl(1);
+  if (state == "0") wlight_ctl(0);
+}
+
+void walert_callback(const String & state)
+{
+  if (state == "1") Alert=1;
+  if (state == "0") Alert=0;
+}
+
 /******* Heartbeat Function ********/
 // Heartbeat for Blinker app
 void heartbeat_app()
@@ -158,7 +387,21 @@ void heartbeat_app()
 // Heartbeat for wIoT
 void heartbeat(const String & state)
 {
-  Blinker.print(W_LIGHT_ID,"jj");
+  Blinker.print("wIoT",1);
+  Blinker.print("ice",Ice);
+  Blinker.print("mode",Mode);
+  Blinker.print(W_LIGHT_ID,digitalRead(lightCtl));
+  Blinker.print(W_SWI_ID,get_swi_status());
+  Blinker.print(W_R1_ID,digitalRead(rSnsr1));
+  Blinker.print(W_R2_ID,digitalRead(rSnsr2));
+  Blinker.print(W_R3_ID,digitalRead(rSnsr3));
+  Blinker.print(W_R4_ID,digitalRead(rSnsr4));
+  Blinker.print(W_BUZ_ID,digitalRead(Buz));
+  Blinker.print(W_LS_ID,analogRead(lightSnsr));
+  Blinker.print(W_LED_ID,ledStatus);
+  if(state=="1") Mode=1;
+  else if(state=="0") Mode=0;
+  LastCnnctTime = millis();
 }
 
 /******* Arduino Setup Funstion *******/
@@ -172,12 +415,26 @@ void setup()
     pinMode(lightCtl, OUTPUT);
     pinMode(swiIn, INPUT);
     pinMode(swiOut, OUTPUT);
+    pinMode(rSnsr1, INPUT);
+    pinMode(rSnsr2, INPUT);
+    pinMode(rSnsr3, INPUT);
+    pinMode(rSnsr4, INPUT);
+    pinMode(led, OUTPUT);
+    pinMode(lightSnsr, INPUT);
+    pinMode(Buz, OUTPUT);
 
     // Pins state ini
     digitalWrite(lightCtl, HIGH);
 
     // swi ini
     swiStatus = get_swi_status();
+
+    // rSnsr ini
+    rSnsr1Status = digitalRead(rSnsr1);
+    rSnsr2Status = digitalRead(rSnsr2);
+    rSnsr3Status = digitalRead(rSnsr3);
+    rSnsr4Status = digitalRead(rSnsr4);
+    
     
     // Blinker ini
     Blinker.begin(auth, ssid, pswd);
@@ -185,6 +442,9 @@ void setup()
     // Blinker attached Functions
     wIoT.attach(heartbeat);
     lightCtlBtn.attach(lightCtlBtn_callback);
+    ledBtn.attach(ledBtn_callback);
+    wledBtn.attach(wledBtn_callback);
+    walert.attach(walert_callback);
 
     // Blinker attached Heartbeat
     Blinker.attachHeartbeat(heartbeat_app);
@@ -195,6 +455,18 @@ void loop() {
     // Active Blinker
     Blinker.run();
 
-    if(swiStatus != get_swi_status()) {Blinker.delay(200);if(swiStatus != get_swi_status()){light_ctl(2);swiStatus = get_swi_status();}}
+    // Ice
+    ice_core();
+    // wIoT connection check
+    wconnect_status();
+
+    // Switch Ctl
+    if(swiStatus != get_swi_status()) {Blinker.delay(SWI_ACTION_DELAY);if(swiStatus != get_swi_status()){light_ctl(2);swiStatus = get_swi_status();}}
+    
+    // led
+    led_core();
+
+    // alert
+    alert_core();
 }