Bresdin O'Malley
/
slider_diatonic_v2_buttonTimers
Important changes to repositories hosted on mbed.com
Mbed hosted mercurial repositories are deprecated and are due to be permanently deleted in July 2026.
To keep a copy of this software download the repository Zip archive or clone locally using Mercurial.
It is also possible to export all your personal repositories from the account settings page.
Fork of
slider_diatonic_v1
by 
Stanley Cohen
slider_diatonic_v1.cpp
- Committer:
- bomalley
- Date:
- 2015-02-25
- Revision:
- 4:922d6f8fe95f
- Parent:
- 3:f68e9cdfaf2d
File content as of revision 4:922d6f8fe95f:
#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
// 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
#define NUMOCTS 1
//Button -->
#define BUTOFF 1
#define BUTON 0
#define BUTTON PTC3
#define PUSHTIME 1000 //wait to check for button press
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};
SLCD slcd; //define LCD display
TSISensor tsiScaling; // Capacitive sensor/slider
PwmOut led(LED_RED);
DigitalOut outPin(PTC9); //J1-16
PwmOut soundOut(PTA13);
Timer dataTimer;
// Global scalars
char lcdData[LCDLEN];
float tonePeriod;
float toneFreq = SIDETONE;
//Timers-->
Timer buttonTimer;//checks for button state change after set amout of time.
//buttons -->
int LButtonState = BUTOFF; //Set the button state to off
DigitalIn LftButton(BUTTON); //PTC3
//Octave changer -->
int octaveState = NUMOCTS; //Not sure what value this should be
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) {
toneFreq = diatonicScale[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);
tempInt = (int)toneFreq;
sprintf (lcdData,"%4d",tempInt);
LCDMessNoDwell(lcdData);
// Start data timer
dataTimer.start();
dataTimer.reset();
buttonTimer.start(); //checks for button state change after set amout of time.
buttonTimer.reset();
while (true) {
if(buttonTimer.read_ms() > PUSHTIME) {
//check button first
LButtonState = !LftButton; //button is off or on
if(LButtonState) {
octaveState++;
octaveState = octaveState % NUMOCTS;
}
}
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%
sprintf(lcdData, "%4d", octaveState + 1);
LCDMessNoDwell("lcdData");
}
dataTimer.reset();
}
} // while forever
}// end main