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view projects/d-box/DboxSensors.cpp @ 12:a6beeba3a648

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Initial support for higher matrix sample rates by reducing the number of channels. Input not tested yet, and not all examples updated to new format.
author andrewm
date Thu, 22 Jan 2015 19:00:22 +0000
parents 8a575ba3ab52
children 901d205d1a3c
line wrap: on
line source
/*
 * DboxSensors.cpp
 *
 *  Created on: May 19, 2014
 *      Author: Victor Zappi
 */


#include "DboxSensors.h"
#include "config.h"

using namespace std;



int DboxSensors::initSensors(int tk0_bus, int tk0_address, int tk1_bus, int tk1_address, int tk_file, int fsr_pin, int fsrmax, bool useNewSensors, int gpio_0, int gpio_1)
{
	newSensors = useNewSensors;
	// init first touch key on i2c bus
	if(tk0_address >= 0) {
		if(TK0.initI2C_RW(tk0_bus, tk0_address, tk_file)>0)
			return 1;
		if(TK0.initTouchKey(newSensors)>0)
			return 2;
	}

	// init second touch key on i2c bus
	if(tk1_address >= 0) {
		if(TK1.initI2C_RW(tk1_bus, tk1_address, tk_file)>0)
			return 1;
		if(TK1.initTouchKey(newSensors)>0)
			return 2;
	}

	// init fsr on analog input pin
	fsr_pinNum	= fsr_pin;
	fsr_max	  	= fsrmax;

	if(FSR.initAnalogInputs()>0)
		return 3;

	gpio[0] = gpio_0;
	if(gpio[0]!=-1)
	{
		fdDi[0] = gpio_export(gpio[0]);
		if(fdDi[0] == -1)
			return 4;
	}
	digitalIn[0] = 1;

	return 0;
}


int DboxSensors::readSensors()
{
	// write data into first touch key
	if(TK0.ready()) {
		if(TK0.readI2C()>0)
			return 1;

		// retrieve data from first touch key
		tk0_touchCnt = TK0.getTouchCount();
	}
	else
		tk0_touchCnt = 0;

	// write data into second touch key
	if(TK1.ready()) {
		if(TK1.readI2C()>0)
			return 1;
		// retrieve data from second touch key
		tk1_touchCnt = TK1.getTouchCount();
	}
	else
		tk1_touchCnt = 0;


	int max = 3;
	if(newSensors)
		max = 5;
	// if touches detected on main touch key
	if(tk0_touchCnt == 0 && tk1_touchCnt == 0)
		resetSensorsData();
	else
	{
		for(int i=0; i<max; i++)
		{
			tk0_touchPosX[i] = TK0.getSliderPosition()[i];
			tk0_touchSize[i] = TK0.getSlidersize()[i];

			tk1_touchPosX[i] = TK1.getSliderPosition()[i];
			tk1_touchSize[i] = TK1.getSlidersize()[i];
		}
		tk0_touchPosY 	 = TK0.getSliderPositionH();
		tk1_touchPosY 	 = TK1.getSliderPositionH();
		fsr_read		 = (double)FSR.read(fsr_pinNum);
	}

	if(gpio[0]!=-1)
	{
		if(gpio_read(fdDi[0], &digitalIn[0])==-1)
			return 1;
	}

	return 0;
}



DboxSensors::DboxSensors()
{
	resetSensorsData();
}



DboxSensors::~DboxSensors()
{
	if(gpio[0]!=-1)
		gpio_dismiss(fdDi[0], gpio[0]);
}



//--------------------------------------------------------------------------------------------------------
// private methods
//--------------------------------------------------------------------------------------------------------

// idle values
void DboxSensors::resetSensorsData()
{
	int max = 3;
	if(newSensors)
		max = 5;

	for(int i=0; i<max; i++)
	{
		tk0_touchPosX[i] = -1;
		tk0_touchPosY	 = -1;
		tk0_touchSize[i] = 0;

		tk1_touchPosX[i] = -1;
		tk1_touchPosY	 = -1;
		tk1_touchSize[i] = 0;

		fsr_read		 = 0;
	}

	return;
}