Siphamandla Simelane
My_Homework
Fork of
slider_diatonic_v1
by 
Vishal Bharam
Diff: slider_diatonic_SP.cpp
- Revision:
- 5:c3564f9501ca
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/slider_diatonic_SP.cpp Tue Feb 24 12:39:03 2015 +0000
@@ -0,0 +1,134 @@
+#include "mbed.h"
+#include "SLCD.h"
+#include "TSISensor.h"
+
+
+#define CHANNELON 0
+#define CHANNELOFF 1
+#define LCDLEN 10
+#define DATATIME 100 //milli seccnds
+//LCD messages
+
+#define TONEARRAY
+
+// Operating parameters
+#define SIDETONE 700.0
+#define TONEMIN 200.0
+#define TONEINT 800.00 // So tone max is 1000
+#define TONEON 0.50
+#define TONEOFF 0.0
+#define SPEEDAST 0
+#define TONEAST 1
+#define NUMTONES 10
+#define LEDPERIOD 0.001
+//#define PRINTDEBUG
+
+Serial pc(USBTX, USBRX);
+
+float diatonicScale[NUMTONES] = {246.94, 261.63,293.66,329.63,349.23,392.00,440.00,493.88,523.25,587.33};
+float diatonicScaleOctave[NUMTONES] = {659.25, 698.46, 783.99, 880.00, 987.77, 1046.50, 1174.66, 1318.51, 1396.91, 1567.98 };
+SLCD slcd; //define LCD display
+
+TSISensor tsiScaling; // Capacitive sensor/slider
+
+InterruptIn mybutton(PTC3); //push botton with internal pullup. decide which diatonicScale id called. use the right button (why (PTC3))
+PwmOut led(LED_RED);
+DigitalOut outPin(PTC9); //J1-16
+PwmOut soundOut(PTA13);
+Timer dataTimer;
+// Global scalars
+char lcdData[LCDLEN];
+
+float tonePeriod;
+float toneFreq = SIDETONE;
+
+// Int used to switch between different octave. Channeloff is equal one.
+//relayState takes two integers; 1 or 0
+int relayState = CHANNELOFF;
+
+
+void pressed() // calls button intterupt line 34
+{
+ relayState = !relayState; //swicthes between 0 and 1. depends on which state is relayState. if it's one, when the the right button is presses
+ //if changes to zero. if it's zero, it changes to one.
+}
+
+void LCDMessNoDwell(char *lMess){
+ slcd.Home();
+ slcd.clear();
+ slcd.printf(lMess);
+}
+
+void diatonicAdjust( float scaling) {
+ int tempInt;
+ int scaleIndex;
+ static int oldScaleIndex = 0;
+/* There appears to be a set up time for setting the PWM time period
+only do a nes set up if the indext changes.
+*/
+ scaleIndex = (int)(NUMTONES * scaling);
+ if (scaleIndex != oldScaleIndex) {
+ if (relayState == CHANNELOFF)
+ toneFreq = diatonicScale[scaleIndex];
+ else
+ toneFreq = diatonicScaleOctave[scaleIndex];
+ tonePeriod = 1.0/toneFreq;
+ soundOut.period(tonePeriod); // adjusting period
+ soundOut.write(TONEON); // there is a setup time for both period and DF
+ oldScaleIndex = scaleIndex;
+ } else {
+ return;
+ }
+#ifdef PRINTDEBUG
+ pc.printf(" %f,%d\n\r",scaling, scaleIndex );
+#endif
+ tempInt = (int)toneFreq;
+ sprintf (lcdData,"%4d",tempInt);
+ LCDMessNoDwell(lcdData);
+ return;
+}
+
+
+
+void lightAdjust( float scaling) { // Control brightness of LED
+ float tempDutyFactor;
+
+ tempDutyFactor = 1.0 - scaling; //LED is a sinking connection // anode is held at 5V
+ led.write(tempDutyFactor); //adjusting duty factor
+ return;
+}
+
+int main(){
+ int tempInt;
+ float tempValue;
+ tonePeriod = 1.0/toneFreq;
+ soundOut.period(tonePeriod);
+ led.period(tonePeriod);
+ led.write(CHANNELOFF);
+ outPin.write(CHANNELOFF);
+ // set up interrrupts to be used later for taps
+ mybutton.fall(&pressed);
+
+ tempInt = (int)toneFreq;
+ sprintf (lcdData,"%4d",tempInt);
+ LCDMessNoDwell(lcdData);
+ // Start data timer
+ dataTimer.start();
+ dataTimer.reset();
+
+ while (true) {
+ if (dataTimer.read_ms() > DATATIME){ // check to see if enough time has passed
+ // to read the touch pad
+ tempValue = tsiScaling.readPercentage();
+ if(tempValue > 0) {
+ // soundOut.write(TONEON); // set duty factor to 50%
+ diatonicAdjust(tempValue);
+ lightAdjust(tempValue);
+ } else {
+ soundOut.write(TONEOFF); // set dutyfactor to 0%
+ LCDMessNoDwell("SOFF");
+ }
+ dataTimer.reset();
+ }
+ } // while forever
+}// end main
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