Keisha Brathwaite
/
KBrat-SSD541-HW-5_2
KBrat-SSD541-HW-5_2
Fork of lightsense_kl46z_basic by
Diff: main.cpp
- Revision:
- 8:3b19ecdc4261
- Parent:
- 7:8d7089b514ae
- Child:
- 9:f619cdaa7a65
diff -r 8d7089b514ae -r 3b19ecdc4261 main.cpp --- a/main.cpp Wed Sep 17 18:20:10 2014 +0000 +++ b/main.cpp Fri Sep 09 19:31:08 2016 +0000 @@ -2,30 +2,16 @@ #include "SLCD.h" -// An State Machine solution to HW 4.1 Q3 -// using wait() for high and low limits. -//#define PRINTDEBUG -#define PROGNAME "blink_kl46z_states nowait v1\n\r" -#define LEDON false -#define LEDOFF true -#define LEDTMESS "TRUE" -#define LEDFMESS "FALS" -#define BLINKDWELL 400 // milliseconds -#define LIMITSTAYON 1000 -#define DFDELTA 0.01 -#define PWMTIME 1 // ms (kHz +#define PROGNAME "lightsense_kl46z_minmax v1\n\r" +#define DATATIME 400 // milliseconds #define LCDLEN 10 -#define NUMSTATES 2 -#define LOWLIMIT 0.1 -#define HILIMIT 0.85 -#define ONTIME 1.0 +#define LIGHTSENSORPORT PTE22 -enum blinkStates {IDLESTATE, NEWBLINK, LOWLITE, HILITE}; // define the states -char logicalString [NUMSTATES][LCDLEN] = {LEDFMESS, LEDTMESS}; SLCD slcd; //define LCD display globally define Serial pc(USBTX, USBRX); +Timer LEDTimer; void LCDMess(char *lMess){ slcd.Home(); @@ -34,80 +20,33 @@ } int main() { - DigitalOut greenColor(LED_GREEN); - DigitalOut redColor(LED_RED); - AnalogIn LightSensor(PTE22); + float maxLight = 0; + float minLight = 1.0; + PwmOut greenColor(LED_GREEN); + PwmOut redColor(LED_RED); + AnalogIn LightSensor(LIGHTSENSORPORT); float lightData; char lcdData[LCDLEN]; - Timer LEDTimer; // time till next PWM values is to change. - blinkStates PGMState = IDLESTATE; // work till timer transitions - int ledState = LEDON; - - int timeToChangeDF = BLINKDWELL; + int timeToChangeDF = DATATIME; // set up timer for next step of Duty Factor timing LEDTimer.start(); LEDTimer.reset(); pc.printf(PROGNAME); - - while(true) { - switch (PGMState){ - case IDLESTATE: { - if (LEDTimer.read_ms() > timeToChangeDF){ // check for timer time out transtion - lightData = (1.0 - LightSensor.read()); - sprintf(lcdData,"%4.3f",lightData); - LCDMess(lcdData); - timeToChangeDF = BLINKDWELL; - if (lightData < LOWLIMIT){ // find appropriate state - PGMState = LOWLITE; - timeToChangeDF = LIMITSTAYON; - } else if (lightData > HILIMIT){ - PGMState = HILITE; - timeToChangeDF = LIMITSTAYON; - } else { - PGMState = NEWBLINK; - timeToChangeDF = BLINKDWELL; - } - - } - break; - } - case NEWBLINK: { - ledState = !ledState; - redColor.write(ledState); - greenColor.write(!ledState); - // create string for display on LCD - - LEDTimer.reset(); // reset the timer - PGMState = IDLESTATE; // go idle state - break; - } - case HILITE: { - redColor.write(LEDON); - greenColor.write(LEDOFF); - // create string for display on LCD - if (LEDTimer.read_ms() > timeToChangeDF){ - LEDTimer.reset(); // reset the timer - PGMState = IDLESTATE; // go idle state - } - break; - } - case LOWLITE: { - redColor.write(LEDOFF); - greenColor.write(LEDON); - // create string for display on LCD - if (LEDTimer.read_ms() > timeToChangeDF){ - LEDTimer.reset(); // reset the timer - PGMState = IDLESTATE; // go idle state - } - break; - } - } // end state machine - -#ifdef PRINTDEBUG - pc.printf("i= %d dutyfactor = %5.4f workingDelta %5.4f \n\r", i, dutyFactor, workingDelta); -#endif + while(true) { + if (LEDTimer.read_ms() > timeToChangeDF){ // check for timer time out transtion + lightData = (1.0 - LightSensor.read()); // show as increasiing with increasing intensity + greenColor.write(1.0- lightData); + redColor.write(1.0-lightData); + sprintf(lcdData,"%4.3f",lightData); + LCDMess(lcdData); + if(lightData > maxLight) maxLight = lightData; + if(lightData < minLight) minLight = lightData; + pc.printf("%4.3f min = %4.3f max = %4.3f\r\n",lightData, minLight, maxLight); + timeToChangeDF = DATATIME; + LEDTimer.reset(); + } }// emd while }