Plymouth ELEC351 Group T
/
ELEC351_Group_T
FINAL PROJECT isn't it
Fork of ELEC351 by
main.cpp
- Committer:
- thomasmorris
- Date:
- 2018-01-07
- Revision:
- 35:26b0a9b55d82
- Parent:
- 34:c0b8705f183d
- Child:
- 36:a0098306fc58
File content as of revision 35:26b0a9b55d82:
/* ELEC 351 Group T Team Members : Christopher Hills, Thomas Morris Current Verision 15 Overiew: Working Tasks 1,2,4,5,6,7,8,10,11,12,13 Last Revision: Added Mail Box to serial Todo: make a mailbox within SD card, LCD, network so they can be used from within Fix the network so it uses the mail box data. */ #include "SETUP.hpp" #include "NETWORK.hpp" Mutex Time_Lock_Main; void Network() { while(1) { Thread::wait(5000);//Waits 5 seconds cout << "In Network Thread" << endl; Networking();//Prints the network data } } void LCD_Write_Year() { Time_Lock_Main.lock(); time_t Time = time(NULL); tm* Time_Pointer = localtime(&Time); int Years = 1900 + Time_Pointer->tm_year; Time_Lock_Main.unlock(); stringstream ss; ss << Years; string Year_String = ss.str(); LCD.DDRAM_Address(0x00); LCD.Write_String("Set Year"); LCD.DDRAM_Address(0x40); LCD.Write_String(Year_String); } void LCD_Write_Month() { Time_Lock_Main.lock(); time_t Time = time(NULL); tm* Time_Pointer = localtime(&Time); int Months = 1 + Time_Pointer->tm_mon; Time_Lock_Main.unlock(); stringstream ss; ss << Months; string Month_String = ss.str(); LCD.DDRAM_Address(0x00); LCD.Write_String("Set Month"); LCD.DDRAM_Address(0x40); LCD.Write_String(Month_String); } void LCD_Write_Day() { Time_Lock_Main.lock(); time_t Time = time(NULL); tm* Time_Pointer = localtime(&Time); int Days = Time_Pointer->tm_mday; Time_Lock_Main.unlock(); stringstream ss; ss << Days; string Day_String = ss.str(); LCD.DDRAM_Address(0x00); LCD.Write_String("Set Day"); LCD.DDRAM_Address(0x40); LCD.Write_String(Day_String); } void LCD_Write_Hour() { Time_Lock_Main.lock(); time_t Time = time(NULL); tm* Time_Pointer = localtime(&Time); int Hours = Time_Pointer->tm_hour; Time_Lock_Main.unlock(); stringstream ss; ss << Hours; string Hour_String = ss.str(); LCD.DDRAM_Address(0x00); LCD.Write_String("Set Hour"); LCD.DDRAM_Address(0x40); LCD.Write_String(Hour_String); } void LCD_Write_Minute() { Time_Lock_Main.lock(); time_t Time = time(NULL); tm* Time_Pointer = localtime(&Time); int Minutes = Time_Pointer->tm_min; Time_Lock_Main.unlock(); stringstream ss; ss << Minutes; string Minute_String = ss.str(); LCD.DDRAM_Address(0x00); LCD.Write_String("Set Minute"); LCD.DDRAM_Address(0x40); LCD.Write_String(Minute_String); } void LCD_Write_Seconds() { Time_Lock_Main.lock(); time_t Time = time(NULL); tm* Time_Pointer = localtime(&Time); int Seconds = Time_Pointer->tm_sec; Time_Lock_Main.unlock(); stringstream ss; ss << Seconds; string Second_String = ss.str(); LCD.DDRAM_Address(0x00); LCD.Write_String("Set Second"); LCD.DDRAM_Address(0x40); LCD.Write_String(Second_String); } void LCD_Output() { while(1) { Thread::wait(10);//Dont Delete if(mode == 0)//Default mode { if(Log_Value == 1){cout << "In mode 0 " << endl;} Thread::wait(Default_Mode_Toggle_Time); sprintf (LCD_buffer, "%1.1f %1.1f %1.1f",Data_Active.get_temperature(),Data_Active.get_pressure(),Data_Active.get_light());//Used for converting to a sting LCD.DDRAM_Address(0x00); LCD.Write_String("Temp Pres li"); LCD.DDRAM_Address(0x40); LCD.Write_String(LCD_buffer); Thread::wait(Default_Mode_Toggle_Time); Time_Lock_Main.lock(); time_t Time = Data_Active.get_time(); tm* Time_Pointer = localtime(&Time); LCD.Display_Clear(); sprintf (LCD_buffer, "%d:%d %d,%d",Time_Pointer->tm_hour,Time_Pointer->tm_min,(Time_Pointer->tm_mon+1),(Time_Pointer->tm_year+1900));//Used for converting to a sting Time_Lock_Main.unlock(); LCD.DDRAM_Address(0x00); LCD.Write_String("Current Time:"); LCD.DDRAM_Address(0x40); LCD.Write_String(LCD_buffer); if(SW1.read() & SW2.read() == 1) { mode = 1; } } else if(mode == 1)//Choose either date setting or time setting { if(Log_Value == 1){cout << "In Mode 1" << endl;} LCD.Display_Clear(); while(1) { LCD.DDRAM_Address(0x00); LCD.Write_String("Date Time"); LCD.DDRAM_Address(0x40); LCD.Write_String("< >"); Thread::wait(1000); if(SW1.read() == 1) { mode = 2; break; } if(SW2.read() == 1) { mode = 5; break; } } } else if(mode == 2)//Set the Year { if(Log_Value == 1){cout << "In Mode 2" << endl;} LCD.Display_Clear(); while(1) { LCD_Write_Year(); Thread::wait(1000); if(SW1.read() & SW2.read() == 1) { mode = 3; break; } if(SW1.read() == 1 & SW2.read() == 0) { Add_Year(); } else if(SW2.read() == 1 & SW1.read() == 0) { Subtract_Year(); } LCD_Write_Year(); } } else if(mode == 3)//Set the Month { if(Log_Value == 1){cout << "In Mode 3" << endl;} LCD.Display_Clear(); while(1) { LCD_Write_Month(); Thread::wait(1000); if(SW1.read() & SW2.read() == 1) { mode = 4; break; } if(SW1.read() == 1 & SW2.read() == 0) { Add_Month(); } else if(SW2.read() == 1 & SW1.read() == 0) { Subtract_Month(); } } } else if(mode == 4)//Set the Day { if(Log_Value == 1){cout << "In Mode 4" << endl;} LCD.Display_Clear(); while(1) { LCD_Write_Day(); Thread::wait(1000); if(SW1.read() & SW2.read() == 1) { mode = 0; break; } if(SW1.read() == 1 & SW2.read() == 0) { Add_Day(); } else if(SW2.read() == 1 & SW1.read() == 0) { Subtract_Day(); } } } else if(mode == 5)//Set the Hour { if(Log_Value == 1){cout << "In Mode 5" << endl;} LCD.Display_Clear(); while(1) { LCD_Write_Hour(); Thread::wait(1000); if(SW1.read() & SW2.read() == 1) { mode = 6; break; } if(SW1.read() == 1 & SW2.read() == 0) { Add_Hour(); } else if(SW2.read() == 1 & SW1.read() == 0) { Subtract_Hour(); } } } else if(mode == 6)//Set the Minute { if(Log_Value == 1){cout << "In Mode 6" << endl;} LCD.Display_Clear(); while(1) { LCD_Write_Minute(); Thread::wait(1000); if(SW1.read() & SW2.read() == 1) { mode = 7; break; } if(SW1.read() == 1 & SW2.read() == 0) { Add_Minute(); } else if(SW2.read() == 1 & SW1.read() == 0) { Subtract_Minute(); } } } else if(mode == 7)//Set the Seconds { if(Log_Value == 1){cout << "In Mode 7" << endl;} LCD.Display_Clear(); while(1) { LCD_Write_Seconds(); Thread::wait(1000); if(SW1.read() & SW2.read() == 1) { mode = 0; break; } if(SW1.read() == 1 & SW2.read() == 0) { Add_Second(); } else if(SW2.read() == 1 & SW1.read() == 0) { Subtract_Second(); } } } else { mode = 0; } } } void Serial_Commands()//Used for getting input from the user to determine the opperations to perform { string Serial_Input; int A,B,C; while(1) { Serial_Input = "Blank"; cout << "Please type in a command" << endl; cin >> Serial_Input >> A >> B >> C; if (Serial_Input == "Test") { cout << "Test Confirmed" << endl; cout << A << " " << B << " " << C << endl; cout << "This is the time " << get_current_time() << endl; } else if(Serial_Input == "READALL") { cout << "Read All Confirmed " << Sample_Rate << endl; Console_Output_Timer.attach(&Console_Output_ISR,Sample_Rate); } else if(Serial_Input == "DELETEALL") { Sampling_Timer.detach(); Console_Output_Timer.detach(); for (int x = 0; x < mailsize; x++) { } Sampling_Timer.attach(&Sampling_ISR,Sample_Rate); cout << "Sampling Restarted" << endl; } else if(Serial_Input == "READ") { for (int x = 0; x < A; x++) { Serial_Comms_Stealth_Mode(); if(Log_Value == 1){cout << "Read " << x << " samples" << endl;} } } else if(Serial_Input == "DELETE") { Sampling_Timer.detach(); Console_Output_Timer.detach(); for (int x = 0; x < A; x++){ if(Log_Value == 1){cout << "Deleted " << x << " samples" << endl;} } Sampling_Timer.attach(&Sampling_ISR,Sample_Rate); cout << "Sampling Restarted" << endl; } else if(Serial_Input == "SETDATE") { set_new_date(A,B,C); } else if(Serial_Input == "SETTIME") { set_new_time(A,B,C); } else if(Serial_Input == "SETT") { if(A >= 1){Sample_Rate = A;} Sampling_Timer.detach(); Console_Output_Timer.detach(); Sampling_Timer.attach(&Sampling_ISR,Sample_Rate); } else if(Serial_Input == "STATE") { if(A==0){Sampling_Timer.detach(); Console_Output_Timer.detach();} if(A==1){Sampling_Timer.attach(&Sampling_ISR,Sample_Rate);} } else if(Serial_Input == "LOGGING") { Log_Value = A; } else if(Serial_Input == "HELP")// Use this to display all of the availble commands { HELP(); } else if(Serial_Input == "STOP") { Console_Output_Timer.detach(); //Stops Sampling } else if(Serial_Input == "Blank Blank") { cout << "Blank Blank complete" << endl; } else { cout << "Please enter an acceptable command" << endl; } } } void Serial_Comms_Stealth_Mode() //Change this name { time_t Time = Data_Active.get_time(); tm* Time_Pointer = localtime(&Time); strftime(scom_time_buffer, 32, "%I:%M %p\t", Time_Pointer); //Format time as a string pc.printf("Date = %d %d %d\t", Time_Pointer->tm_mday, (Time_Pointer->tm_mon+1),(Time_Pointer->tm_year+1900)); pc.printf("Time = %s", scom_time_buffer); //Print the string formatted time pc.printf("Temperature = %f\t", Data_Active.get_temperature()); //Print Temperature pc.printf("Pressure = %f\t", Data_Active.get_pressure()); //Print Pressure pc.printf("Light = %f\n\r", Data_Active.get_light()); //Print Light Green_led.Toggle(); } void Serial_Comms()//Thread for Serial Communications { while(1) { Thread::signal_wait(SerialCommsTime);//Stupid 0 Bug Serial_Comms_Stealth_Mode(); } } void Console_Output_ISR() {t2.signal_set(SerialCommsTime);} void Sampling_ISR() {t1.signal_set(SamplingTime);} void Sample()//Samples the hardware and prints the result to the LCD { while(1) { Thread::signal_wait(SamplingTime); //Set the time between samples Data_Active.set_temperature(sensor.getTemperature()); //Read Temperature Data_Active.set_pressure(sensor.getPressure()); //Read Pressure Data_Active.set_light(adcIn.read()); //Read Light Time_Lock_Main.lock(); time_t buffer_time = time(NULL); Time_Lock_Main.unlock(); Data_Active.set_time(buffer_time); Red_led.Toggle(); t1.signal_set(NotSamplingTime); } } int main() { //Greeting pc.printf("Test Start"); pc.printf("\n\r"); set_time(1512940530); //Set RTC time to December 10 2017 pc.baud(9600); //Sets the Serial Comms Baud Rate LCD.Initialise(); LCD.DDRAM_Address(0x00); post(); //Power on Self Test //Initialise the SD card (this needs to move) if ( sd.init() != 0) { printf("Init failed \n"); LCD.Display_Clear(); LCD.Write_String("CANNOT INIT SD"); //Change me errorCode(FATAL); } //Create a filing system for SD Card FATFileSystem fs("sd", &sd); //Open to WRITE FILE* fp = fopen("/sd/test.csv","a"); if (fp == NULL) { error("Could not open file for write\n"); LCD.Display_Clear(); LCD.Write_String("CANNOT OPEN FILE\n\n");//Change me errorCode(FATAL); } //Last message before sampling begins LCD.Display_Clear(); LCD.Write_String("READY PLAYER"); LCD.DDRAM_Address(0x40); LCD.Write_String(" One "); LCD.DDRAM_Address(0x00); Network_Init();//Sets up the network Sample_Rate = TimerInterval; //Run interrupt Sampling_Timer.attach(&Sampling_ISR,Sample_Rate); t1.start(Sample); t2.start(Serial_Comms); t3.start(LCD_Output); t4.start(Network); t5.start(Serial_Commands); //Main thread ID idMain = osThreadGetId(); //CMSIS RTOS call //Thread ID id1 = t1.gettid(); id2 = t2.gettid(); id3 = t3.gettid(); id4 = t4.gettid(); id5 = t5.gettid(); while (onBoardSwitch == 0) { } //Close File /* fclose(fp); //Close down sd.deinit(); printf("Unmounted...\n"); lcd.cls(); lcd.printf("Unmounted...\n\n"); */ while(true) { greenLED = 1; wait(0.5); greenLED = 0; wait(0.1); } }