Tasmota/lib/Joba_Tsl2561/examples/Testing/Testing.ino

164 lines
4.4 KiB
C++

/*
Tests for the Tsl2561 class.
It shows how to use every available method.
Copyright: Joachim Banzhaf, 2018
This file is part of the Joba_Tsl2561 Library.
Joba_Tsl2561 is free software: you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Joba_Tsl2561 is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Joba_Tsl2561. If not, see <http://www.gnu.org/licenses/>.
*/
#include <Tsl2561.h>
Tsl2561 Tsl(Wire);
void showError( Tsl2561 &tsl ) {
Tsl2561::status_t status = tsl.status();
Serial.printf("Error was %u: ", status);
switch( status ) {
case Tsl2561::ERR_OK: Serial.println("None"); break;
case Tsl2561::ERR_RW: Serial.println("Read/Write"); break;
case Tsl2561::ERR_BUSY: Serial.println("Busy"); break;
case Tsl2561::ERR_GONE: Serial.println("Gone"); break;
case Tsl2561::ERR_GENERAL: Serial.println("General"); break;
default: Serial.println("Unknown"); break;
}
}
void testSensitivity( Tsl2561 &tsl, bool newGain, Tsl2561::exposure_t newExp ) {
if( tsl.on() ) {
uint32_t start = millis();
Serial.printf("Chip powered on at %u\n", start);
bool chipGain;
Tsl2561::exposure_t chipExp;
bool change = true;
if( tsl.getSensitivity(chipGain, chipExp) ) {
if( chipGain == newGain && chipExp == newExp ) {
change = false;
}
}
else {
Serial.print("getSensitivity failed. ");
showError(tsl);
}
bool check = true;
if( change ) {
if( tsl.setSensitivity(newGain, newExp) ) {
Serial.printf("New gain = %d, exposure = 0x%02x\n", newGain, newExp);
}
else {
check = false;
Serial.print("setSensitivity failed. ");
showError(tsl);
}
}
if( check ) {
uint16_t ir, full = 0;
while( !full && millis() - start < 1000 ) {
if( !tsl.fullLuminosity(full) ) {
Serial.print("Check full luminosity failed. ");
showError(tsl);
}
if( full ) {
if( !tsl.irLuminosity(ir) ) {
Serial.print("Check ir luminosity failed. ");
showError(tsl);
}
}
else {
delay(10);
}
}
if( !full ) {
Serial.println("No luminosity reading after 1s. Too dark?");
}
else {
Serial.printf("Got luminosity after %d ms. Full spectrum is %d and IR only is %d\n", millis() - start, full, ir);
}
}
if( !tsl.off() ) {
Serial.print("Power off failed. ");
showError(tsl);
}
}
else {
Serial.print("Power on failed. ");
showError(tsl);
}
}
bool testPackage( Tsl2561 &tsl ) {
uint8_t id;
if( tsl.id(id) ) {
Serial.printf("Chip has type %02x and revision %x\n", Tsl2561::type(id), Tsl2561::revision(id) );
if( Tsl2561::packageT_FN_CL(id) ) {
Serial.println("Chip is a T, FN or CL type package");
}
else if( Tsl2561::packageCS(id) ) {
Serial.println("Chip is a CS type package");
}
else {
Serial.println("Chip is an unknown package");
}
return true;
}
else {
Serial.print("Get Chip ID failed. ");
showError(tsl);
}
return false;
}
void test( Tsl2561 &tsl ) {
bool ok = tsl.available();
Serial.printf("\nTesting Tsl2561 at address %02x: %sfound\n", tsl.address(), ok ? "" : "NOT ");
if( ok ) {
if( testPackage(tsl) ) {
testSensitivity(tsl, Tsl2561::GAIN_OFF, Tsl2561::EXP_402);
testSensitivity(tsl, Tsl2561::GAIN_ON, Tsl2561::EXP_402);
testSensitivity(tsl, Tsl2561::GAIN_OFF, Tsl2561::EXP_101);
testSensitivity(tsl, Tsl2561::GAIN_ON, Tsl2561::EXP_101);
testSensitivity(tsl, Tsl2561::GAIN_OFF, Tsl2561::EXP_14);
testSensitivity(tsl, Tsl2561::GAIN_ON, Tsl2561::EXP_14);
}
}
else {
showError(tsl);
}
}
void setup() {
Serial.begin(115200);
Wire.begin();
Serial.println("\nStarting Tsl2561 testing loop");
}
void loop() {
Tsl.begin(Tsl2561::ADDR_GND);
test(Tsl);
Tsl.begin(Tsl2561::ADDR_FLOAT);
test(Tsl);
Tsl.begin(Tsl2561::ADDR_VDD);
test(Tsl);
Serial.println("\nNext test in 5s\n");
delay(5000);
}