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Embedded software Assessment 2
Dependencies: MCP23017 SDFileSystem USBDevice WattBob_TextLCD mbed
Function.h@12:582753a4f1fb, 2014-02-21 (annotated)
- Committer:
- muaiyd
- Date:
- Fri Feb 21 11:52:48 2014 +0000
- Revision:
- 12:582753a4f1fb
- Parent:
- 11:0b2801513f93
- Child:
- 13:6094b94b3b7c
Start improving LCD
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
muaiyd | 0:86bba6bf9b6f | 1 | #include "MCP23017.h" |
muaiyd | 0:86bba6bf9b6f | 2 | #include "WattBob_TextLCD.h" |
muaiyd | 0:86bba6bf9b6f | 3 | #include "mbed.h" |
muaiyd | 8:16a77a68e4b4 | 4 | #include "SDFileSystem.h" |
muaiyd | 0:86bba6bf9b6f | 5 | |
muaiyd | 7:d9f86e1b8185 | 6 | MCP23017 Port(p9,p10,0x40) ; // 16-bit parallel I/O object |
muaiyd | 7:d9f86e1b8185 | 7 | WattBob_TextLCD LCD(&Port); // Varaible to 2*16 chacater LCD object |
muaiyd | 7:d9f86e1b8185 | 8 | |
muaiyd | 7:d9f86e1b8185 | 9 | |
muaiyd | 7:d9f86e1b8185 | 10 | BusOut BinLed(LED4, LED3, LED2, LED1); |
muaiyd | 8:16a77a68e4b4 | 11 | DigitalIn FrequencyIn(p15); |
muaiyd | 8:16a77a68e4b4 | 12 | DigitalIn Switch1(p17); |
muaiyd | 8:16a77a68e4b4 | 13 | DigitalIn Switch2(p18); |
muaiyd | 7:d9f86e1b8185 | 14 | AnalogIn Analogue_in_1(p19); |
muaiyd | 7:d9f86e1b8185 | 15 | AnalogIn Analogue_in_2(p20); |
muaiyd | 7:d9f86e1b8185 | 16 | |
muaiyd | 8:16a77a68e4b4 | 17 | SDFileSystem sd(p5, p6, p7, p8, "sd"); // the pinout on the mbed Cool Components workshop board |
muaiyd | 0:86bba6bf9b6f | 18 | |
muaiyd | 7:d9f86e1b8185 | 19 | uint8_t Analug1_valu[5]={0,0,0,0,0}; |
muaiyd | 7:d9f86e1b8185 | 20 | uint8_t Analug2_valu[5]={0,0,0,0,0}; |
muaiyd | 7:d9f86e1b8185 | 21 | uint8_t Bin=0x00; |
muaiyd | 7:d9f86e1b8185 | 22 | bool Swch1; |
muaiyd | 7:d9f86e1b8185 | 23 | bool Swch2; |
muaiyd | 7:d9f86e1b8185 | 24 | bool Ena_job6=0; |
muaiyd | 7:d9f86e1b8185 | 25 | bool FreqTimeOutE=1; |
muaiyd | 7:d9f86e1b8185 | 26 | uint8_t Error_Code; |
muaiyd | 7:d9f86e1b8185 | 27 | uint16_t Freq; |
muaiyd | 9:539c51b7db52 | 28 | char Temp[4]; |
muaiyd | 12:582753a4f1fb | 29 | FILE *fp; |
muaiyd | 12:582753a4f1fb | 30 | |
muaiyd | 7:d9f86e1b8185 | 31 | Timer FreqMsurT; |
muaiyd | 7:d9f86e1b8185 | 32 | Timer FreqTimeOut; |
muaiyd | 9:539c51b7db52 | 33 | Timer LogTimer; |
muaiyd | 7:d9f86e1b8185 | 34 | |
muaiyd | 7:d9f86e1b8185 | 35 | Ticker CallFreqMsur; |
muaiyd | 7:d9f86e1b8185 | 36 | Ticker CallReadDigitalin; |
muaiyd | 7:d9f86e1b8185 | 37 | Ticker CallReadAnalogin; |
muaiyd | 7:d9f86e1b8185 | 38 | Ticker CallDisplay; |
muaiyd | 7:d9f86e1b8185 | 39 | Ticker CallInputCheck; |
muaiyd | 7:d9f86e1b8185 | 40 | Ticker CallBinaryCounter; |
muaiyd | 7:d9f86e1b8185 | 41 | Ticker CallLogFile; |
muaiyd | 7:d9f86e1b8185 | 42 | |
muaiyd | 12:582753a4f1fb | 43 | |
muaiyd | 12:582753a4f1fb | 44 | void Init_LCD(); |
muaiyd | 12:582753a4f1fb | 45 | void FreqMsur(); |
muaiyd | 12:582753a4f1fb | 46 | void ReadDigitalin(); |
muaiyd | 12:582753a4f1fb | 47 | void ReadAnalogin(); |
muaiyd | 12:582753a4f1fb | 48 | void Display(); |
muaiyd | 12:582753a4f1fb | 49 | void InputCheck(); |
muaiyd | 12:582753a4f1fb | 50 | void BinaryCounter(); |
muaiyd | 12:582753a4f1fb | 51 | void InitFile(); |
muaiyd | 12:582753a4f1fb | 52 | void LogFile(); |
muaiyd | 12:582753a4f1fb | 53 | |
muaiyd | 12:582753a4f1fb | 54 | /******************************************************************************** |
muaiyd | 12:582753a4f1fb | 55 | Functions |
muaiyd | 12:582753a4f1fb | 56 | ###############################################################################*/ |
muaiyd | 0:86bba6bf9b6f | 57 | void Write_LCD(const char STR[],int8_t PY,int8_t PX,bool clr){ |
muaiyd | 0:86bba6bf9b6f | 58 | if(clr) |
muaiyd | 0:86bba6bf9b6f | 59 | LCD.cls(); |
muaiyd | 0:86bba6bf9b6f | 60 | LCD.locate(PY,PX); |
muaiyd | 0:86bba6bf9b6f | 61 | LCD.printf(STR); |
muaiyd | 0:86bba6bf9b6f | 62 | } |
muaiyd | 0:86bba6bf9b6f | 63 | void Init_LCD(){ |
muaiyd | 0:86bba6bf9b6f | 64 | Port.write_bit(1,BL_BIT); |
muaiyd | 0:86bba6bf9b6f | 65 | Write_LCD("Muaiyd",0,4,1); |
muaiyd | 0:86bba6bf9b6f | 66 | Write_LCD("Heriot-Watt Uni.",1,0,0); |
muaiyd | 8:16a77a68e4b4 | 67 | //wait(1); |
muaiyd | 8:16a77a68e4b4 | 68 | //LCD.cls(); |
muaiyd | 4:4bb228d1f6c2 | 69 | } |
muaiyd | 4:4bb228d1f6c2 | 70 | |
muaiyd | 7:d9f86e1b8185 | 71 | /* |
muaiyd | 7:d9f86e1b8185 | 72 | Measure the frequency of a 3.3v square wave signal once every second. The frequency range |
muaiyd | 7:d9f86e1b8185 | 73 | is 500Hz to 1000Hz with 50% duty cycle). |
muaiyd | 7:d9f86e1b8185 | 74 | */ |
muaiyd | 7:d9f86e1b8185 | 75 | |
muaiyd | 7:d9f86e1b8185 | 76 | void FreqMsur(){ |
muaiyd | 7:d9f86e1b8185 | 77 | FreqTimeOut.start(); |
muaiyd | 7:d9f86e1b8185 | 78 | while(!FrequencyIn){ |
muaiyd | 7:d9f86e1b8185 | 79 | if (FreqTimeOut.read_ms() > 50) |
muaiyd | 7:d9f86e1b8185 | 80 | break; |
muaiyd | 7:d9f86e1b8185 | 81 | } |
muaiyd | 7:d9f86e1b8185 | 82 | while(FrequencyIn){ |
muaiyd | 7:d9f86e1b8185 | 83 | if (FreqTimeOut.read_ms() > 50) |
muaiyd | 7:d9f86e1b8185 | 84 | break; |
muaiyd | 7:d9f86e1b8185 | 85 | } |
muaiyd | 7:d9f86e1b8185 | 86 | if (FreqTimeOut.read_ms() > 50) |
muaiyd | 7:d9f86e1b8185 | 87 | FreqTimeOutE=0; |
muaiyd | 7:d9f86e1b8185 | 88 | |
muaiyd | 7:d9f86e1b8185 | 89 | if(FreqTimeOutE){ |
muaiyd | 7:d9f86e1b8185 | 90 | FreqMsurT.start(); |
muaiyd | 7:d9f86e1b8185 | 91 | while(!FrequencyIn){ |
muaiyd | 7:d9f86e1b8185 | 92 | } |
muaiyd | 7:d9f86e1b8185 | 93 | while(FrequencyIn){ |
muaiyd | 7:d9f86e1b8185 | 94 | } |
muaiyd | 7:d9f86e1b8185 | 95 | FreqMsurT.stop(); |
muaiyd | 7:d9f86e1b8185 | 96 | float Period=FreqMsurT.read_us(); |
muaiyd | 12:582753a4f1fb | 97 | Freq=1/Period*1000000.0; //Adding 0.5 to round the frequency to nearst int |
muaiyd | 7:d9f86e1b8185 | 98 | } |
muaiyd | 7:d9f86e1b8185 | 99 | else{ |
muaiyd | 7:d9f86e1b8185 | 100 | Freq=0xffff; |
muaiyd | 7:d9f86e1b8185 | 101 | } |
muaiyd | 7:d9f86e1b8185 | 102 | FreqMsurT.reset(); |
muaiyd | 7:d9f86e1b8185 | 103 | FreqTimeOut.stop(); |
muaiyd | 7:d9f86e1b8185 | 104 | FreqTimeOut.reset(); |
muaiyd | 7:d9f86e1b8185 | 105 | FreqTimeOutE=1; |
muaiyd | 7:d9f86e1b8185 | 106 | |
muaiyd | 4:4bb228d1f6c2 | 107 | } |
muaiyd | 4:4bb228d1f6c2 | 108 | |
muaiyd | 7:d9f86e1b8185 | 109 | //Read TWO digital inputs every 400mS (switch_1 and switch_2) |
muaiyd | 7:d9f86e1b8185 | 110 | void ReadDigitalin(){ |
muaiyd | 7:d9f86e1b8185 | 111 | Swch1=Switch1; |
muaiyd | 7:d9f86e1b8185 | 112 | Swch2=Switch2; |
muaiyd | 4:4bb228d1f6c2 | 113 | } |
muaiyd | 7:d9f86e1b8185 | 114 | /* |
muaiyd | 7:d9f86e1b8185 | 115 | Read TWO analogue inputs every 800mS (Analogue_in_1 at pin 19 |
muaiyd | 7:d9f86e1b8185 | 116 | and Analogue_in_2 at pin 20). Also, averaging the last 4 readings |
muaiyd | 7:d9f86e1b8185 | 117 | */ |
muaiyd | 7:d9f86e1b8185 | 118 | void ReadAnalogin(){ |
muaiyd | 7:d9f86e1b8185 | 119 | Analug1_valu[4]=0; |
muaiyd | 7:d9f86e1b8185 | 120 | Analug2_valu[4]=0; |
muaiyd | 7:d9f86e1b8185 | 121 | for(int i=0;i<3;i++){ |
muaiyd | 7:d9f86e1b8185 | 122 | Analug1_valu[i]=Analug1_valu[i+1]; |
muaiyd | 7:d9f86e1b8185 | 123 | Analug1_valu[4]=Analug1_valu[4]+Analug1_valu[i]/4; |
muaiyd | 7:d9f86e1b8185 | 124 | Analug2_valu[i]=Analug2_valu[i+1]; |
muaiyd | 7:d9f86e1b8185 | 125 | Analug2_valu[4]=Analug2_valu[4]+Analug2_valu[i]/4; |
muaiyd | 7:d9f86e1b8185 | 126 | } |
muaiyd | 7:d9f86e1b8185 | 127 | Analug1_valu[3]=Analogue_in_1.read()*255; |
muaiyd | 7:d9f86e1b8185 | 128 | Analug2_valu[3]=Analogue_in_2.read()*255; |
muaiyd | 7:d9f86e1b8185 | 129 | Analug1_valu[4]=Analug1_valu[4]+Analug1_valu[3]/4; |
muaiyd | 7:d9f86e1b8185 | 130 | Analug2_valu[4]=Analug2_valu[4]+Analug2_valu[3]/4; |
muaiyd | 7:d9f86e1b8185 | 131 | } |
muaiyd | 7:d9f86e1b8185 | 132 | /* |
muaiyd | 7:d9f86e1b8185 | 133 | Display the following on the LCD display every 2 seconds |
muaiyd | 7:d9f86e1b8185 | 134 | a. Frequency value (show as integer) |
muaiyd | 7:d9f86e1b8185 | 135 | b. analogue values (show as integers) |
muaiyd | 7:d9f86e1b8185 | 136 | c. digital values |
muaiyd | 7:d9f86e1b8185 | 137 | d. Possible error code |
muaiyd | 7:d9f86e1b8185 | 138 | */ |
muaiyd | 7:d9f86e1b8185 | 139 | void Display(){ |
muaiyd | 7:d9f86e1b8185 | 140 | Write_LCD("F",0,0,1); |
muaiyd | 7:d9f86e1b8185 | 141 | if( Freq<1200 && Freq>400){ |
muaiyd | 7:d9f86e1b8185 | 142 | sprintf(Temp, "%d", Freq); |
muaiyd | 7:d9f86e1b8185 | 143 | Write_LCD(Temp,0,1,0); |
muaiyd | 7:d9f86e1b8185 | 144 | } |
muaiyd | 7:d9f86e1b8185 | 145 | else{ |
muaiyd | 7:d9f86e1b8185 | 146 | Write_LCD("Err",0,1,0); |
muaiyd | 7:d9f86e1b8185 | 147 | } |
muaiyd | 7:d9f86e1b8185 | 148 | |
muaiyd | 7:d9f86e1b8185 | 149 | Write_LCD("A",1,0,0); |
muaiyd | 7:d9f86e1b8185 | 150 | sprintf(Temp, "%d", Analug1_valu[4]); |
muaiyd | 7:d9f86e1b8185 | 151 | Write_LCD(Temp,1,2,0); |
muaiyd | 7:d9f86e1b8185 | 152 | |
muaiyd | 7:d9f86e1b8185 | 153 | Write_LCD("A",1,8,0); |
muaiyd | 7:d9f86e1b8185 | 154 | sprintf(Temp, "%d", Analug2_valu[4]); |
muaiyd | 7:d9f86e1b8185 | 155 | Write_LCD(Temp,1,9,0); |
muaiyd | 7:d9f86e1b8185 | 156 | |
muaiyd | 7:d9f86e1b8185 | 157 | Write_LCD("S",0,7,0); |
muaiyd | 7:d9f86e1b8185 | 158 | sprintf(Temp, "%d", Swch1); |
muaiyd | 7:d9f86e1b8185 | 159 | Write_LCD(Temp,0,8,0); |
muaiyd | 7:d9f86e1b8185 | 160 | |
muaiyd | 7:d9f86e1b8185 | 161 | Write_LCD("S",0,10,0); |
muaiyd | 7:d9f86e1b8185 | 162 | sprintf(Temp, "%d", Swch2); |
muaiyd | 7:d9f86e1b8185 | 163 | Write_LCD(Temp,0,11,0); |
muaiyd | 7:d9f86e1b8185 | 164 | |
muaiyd | 7:d9f86e1b8185 | 165 | Write_LCD("E",0,14,0); |
muaiyd | 7:d9f86e1b8185 | 166 | sprintf(Temp, "%d", Error_Code); |
muaiyd | 7:d9f86e1b8185 | 167 | Write_LCD(Temp,0,15,0); |
muaiyd | 4:4bb228d1f6c2 | 168 | } |
muaiyd | 7:d9f86e1b8185 | 169 | void InputCheck(){ |
muaiyd | 7:d9f86e1b8185 | 170 | if(Swch1&&(Analug1_valu[4]>Analug2_valu[4])){ |
muaiyd | 7:d9f86e1b8185 | 171 | Error_Code=3; |
muaiyd | 7:d9f86e1b8185 | 172 | } |
muaiyd | 7:d9f86e1b8185 | 173 | else{ |
muaiyd | 7:d9f86e1b8185 | 174 | Error_Code=0; |
muaiyd | 7:d9f86e1b8185 | 175 | } |
muaiyd | 7:d9f86e1b8185 | 176 | if(Swch2){ |
muaiyd | 7:d9f86e1b8185 | 177 | Ena_job6=1; |
muaiyd | 7:d9f86e1b8185 | 178 | } |
muaiyd | 7:d9f86e1b8185 | 179 | else{ |
muaiyd | 7:d9f86e1b8185 | 180 | Ena_job6=0; |
muaiyd | 7:d9f86e1b8185 | 181 | } |
muaiyd | 4:4bb228d1f6c2 | 182 | } |
muaiyd | 4:4bb228d1f6c2 | 183 | |
muaiyd | 7:d9f86e1b8185 | 184 | void BinaryCounter(){ |
muaiyd | 7:d9f86e1b8185 | 185 | if(Ena_job6){ |
muaiyd | 7:d9f86e1b8185 | 186 | BinLed=Bin; |
muaiyd | 7:d9f86e1b8185 | 187 | Bin++; |
muaiyd | 7:d9f86e1b8185 | 188 | } |
muaiyd | 7:d9f86e1b8185 | 189 | else{ |
muaiyd | 7:d9f86e1b8185 | 190 | BinLed=0x00; |
muaiyd | 7:d9f86e1b8185 | 191 | Bin=0x00; |
muaiyd | 7:d9f86e1b8185 | 192 | } |
muaiyd | 4:4bb228d1f6c2 | 193 | } |
muaiyd | 12:582753a4f1fb | 194 | void InitFile(){ |
muaiyd | 12:582753a4f1fb | 195 | fp = fopen( "/sd/LogDir/sdtest.txt" , "a"); |
muaiyd | 8:16a77a68e4b4 | 196 | if(fp == NULL) { |
muaiyd | 8:16a77a68e4b4 | 197 | error("Could not open file for write\n"); |
muaiyd | 12:582753a4f1fb | 198 | } |
muaiyd | 12:582753a4f1fb | 199 | fclose(fp); |
muaiyd | 12:582753a4f1fb | 200 | } |
muaiyd | 12:582753a4f1fb | 201 | void LogFile(){ |
muaiyd | 12:582753a4f1fb | 202 | char* Frq; |
muaiyd | 12:582753a4f1fb | 203 | fp = fopen("/sd/LogDir/sdtest.txt", "a"); |
muaiyd | 11:0b2801513f93 | 204 | if( Freq<1200 && Freq>400){ |
muaiyd | 11:0b2801513f93 | 205 | sprintf(Temp, "%d", Freq); |
muaiyd | 11:0b2801513f93 | 206 | Frq = Temp; |
muaiyd | 11:0b2801513f93 | 207 | } |
muaiyd | 9:539c51b7db52 | 208 | else |
muaiyd | 11:0b2801513f93 | 209 | Frq="Err"; |
muaiyd | 11:0b2801513f93 | 210 | |
muaiyd | 11:0b2801513f93 | 211 | fprintf(fp,"%d ,",(LogTimer.read_ms()/1000)); |
muaiyd | 11:0b2801513f93 | 212 | fprintf(fp," %s ,",Frq); |
muaiyd | 11:0b2801513f93 | 213 | fprintf(fp," %i ,",Swch1); |
muaiyd | 11:0b2801513f93 | 214 | fprintf(fp," %i ,",Swch2); |
muaiyd | 11:0b2801513f93 | 215 | fprintf(fp," %d ,",Analug1_valu[4]); |
muaiyd | 11:0b2801513f93 | 216 | fprintf(fp," %d",Analug2_valu[4]); |
muaiyd | 11:0b2801513f93 | 217 | fprintf(fp," %s","\r\n"); |
muaiyd | 8:16a77a68e4b4 | 218 | fclose(fp); |
muaiyd | 8:16a77a68e4b4 | 219 | printf("Goodbye World!\n"); |
muaiyd | 0:86bba6bf9b6f | 220 | } |