st-anything/lib/ST_Anything/EX_RGB_Dim.cpp
Gašper Dobrovoljc ec125f27db
IP Configuration
2023-03-11 15:11:03 +01:00

214 lines
6.7 KiB
C++

//******************************************************************************************
// File: EX_RGB_Dim.h
// Authors: Allan (vseven) based on EX_Switch_Dim by Dan G Ogorchock
//
// Summary: EX_RGB_Dim is a class which implements the SmartThings "Color Control", "Switch", and "Switch Level" device capabilities.
// It inherits from the st::Executor class.
//
// Create an instance of this class in your sketch's global variable section
// For Example: st::EX_RGB_Dim executor1("rgbSwitch1", PIN_R, PIN_G, PIN_B, true, 0, 1, 2);
//
// st::EX_RGB_Dim() constructor requires the following arguments
// - String &name - REQUIRED - the name of the object - must match the Groovy ST_Anything DeviceType tile name
// - byte pin_r - REQUIRED - the Arduino Pin to be used as a digital output for Red
// - byte pin_g - REQUIRED - the Arduino Pin to be used as a digital output for Green
// - byte pin_b - REQUIRED - the Arduino Pin to be used as a digital output for Blue
// - bool commonAnode - REQUIRED - determines whether the Arduino Digital Output should use inverted logic
// - byte channel_r - OPTIONAL - PWM channel used for Red on a ESP32
// - byte channel_g - OPTIONAL - PWM channel used for Green on a ESP32
// - byte channel_b - OPTIONAL - PWM channel used for Blue on a ESP32
//
// Change History:
//
// Date Who What
// ---- --- ----
// 2016-04-30 Dan Ogorchock Original Creation
// 2017-08-30 Dan Ogorchock Modified comment section above to comply with new Parent/Child Device Handler requirements
// 2017-10-08 Allan (vseven) Modified original code from EX_Switch_Dim to be used for RGB lighting
// 2018-08-14 Dan Ogorchock Modified to avoid compiler errors on ESP32 since it currently does not support "analogWrite()"
// 2020-03-29 DOUG (M2) Scaled the 8bit values to 10bit for ESP8266 "analogWrite()"
// 2020-04-01 Dan Ogorchock Added back in functionality for traditional Arduino Boards
//
//******************************************************************************************
#include "EX_RGB_Dim.h"
#include "Constants.h"
#include "Everything.h"
namespace st
{
//private
void EX_RGB_Dim::writeRGBToPins()
{
int subStringR;
int subStringG;
int subStringB;
if (m_bCurrentState == HIGH)
{
// Our status is on so get the RGB value from the hex
String hexstring = m_sCurrentHEX;
long number = (long) strtol( &hexstring[1], NULL, 16);
// Split them up into r, g, b values
subStringR = number >> 16;
subStringG = number >> 8 & 0xFF;
subStringB = number & 0xFF;
}
else
{
// Status is off so turn off LED
subStringR = 00;
subStringG = 00;
subStringB = 00;
}
if(m_bCommonAnode)
{
// A hex value of 00 will translate to 255 for a common anode. However the
// ledcWrite seems to need a 256 to turn off so we are adding one here.
#if defined(ARDUINO_ARCH_ESP32)
subStringR = 255 - subStringR + 1;
subStringG = 255 - subStringG + 1;
subStringB = 255 - subStringB + 1;
#else
subStringR = 255 - subStringR;
subStringG = 255 - subStringG;
subStringB = 255 - subStringB;
#endif
}
// Write to outputs. Use ledc for ESP32, analogWrite for everything else.
if (st::Executor::debug) {
#if defined(ARDUINO_ARCH_ESP32)
Serial.print(F("subString R:G:B = "));
Serial.println(String(subStringR) + ":" + String(subStringG) + ":" + String(subStringB));
#elif defined(ARDUINO_ARCH_ESP8266)
Serial.print(F("subString 10bit R:G:B = "));
Serial.println(String(map(subStringR, 0, 255, 0, 1023)) + ":" + String(map(subStringG, 0, 255, 0, 1023)) + ":" + String(map(subStringB, 0, 255, 0, 1023)));
#else
Serial.print(F("subString R:G:B = "));
Serial.println(String(subStringR) + ":" + String(subStringG) + ":" + String(subStringB));
#endif
}
// Any adjustments to the colors can be done here before sending the commands. For example if red is always too bright reduce it:
// subStringR = subStringR * 0.95
#if defined(ARDUINO_ARCH_ESP32)
ledcWrite(m_nChannelR, subStringR);
#elif defined(ARDUINO_ARCH_ESP8266)
analogWrite(m_nPinR, map(subStringR, 0, 255, 0, 1023));
#else
analogWrite(m_nPinR, subStringR);
#endif
#if defined(ARDUINO_ARCH_ESP32)
ledcWrite(m_nChannelG, subStringG);
#elif defined(ARDUINO_ARCH_ESP8266)
analogWrite(m_nPinG, map(subStringG, 0, 255, 0, 1023));
#else
analogWrite(m_nPinG, subStringG);
#endif
#if defined(ARDUINO_ARCH_ESP32)
ledcWrite(m_nChannelB, subStringB);
#elif defined(ARDUINO_ARCH_ESP8266)
analogWrite(m_nPinB, map(subStringB, 0, 255, 0, 1023));
#else
analogWrite(m_nPinB, subStringB);
#endif
}
//public
//constructor
EX_RGB_Dim::EX_RGB_Dim(const __FlashStringHelper *name, byte pinR, byte pinG, byte pinB, bool commonAnode, byte channelR, byte channelG, byte channelB):
Executor(name),
m_bCommonAnode(commonAnode)
{
setRedPin(pinR, channelR);
setGreenPin(pinG, channelG);
setBluePin(pinB, channelB);
}
//destructor
EX_RGB_Dim::~EX_RGB_Dim()
{
}
void EX_RGB_Dim::init()
{
Everything::sendSmartString(getName() + " " + (m_bCurrentState == HIGH ? F("on") : F("off")));
}
void EX_RGB_Dim::beSmart(const String &str)
{
String s=str.substring(str.indexOf(' ')+1);
if (st::Executor::debug) {
Serial.print(F("EX_RGB_Dim::beSmart s = "));
Serial.println(s);
}
if(s==F("on"))
{
m_bCurrentState=HIGH;
}
else if(s==F("off"))
{
m_bCurrentState=LOW;
}
else //must be a set color command
{
s.trim();
m_sCurrentHEX = s;
}
writeRGBToPins();
Everything::sendSmartString(getName() + " " + (m_bCurrentState == HIGH?F("on"):F("off")));
}
void EX_RGB_Dim::refresh()
{
Everything::sendSmartString(getName() + " " + (m_bCurrentState == HIGH?F("on"):F("off")));
}
void EX_RGB_Dim::setRedPin(byte pin, byte channel)
{
m_nPinR = pin;
m_nChannelR = channel;
#if defined(ARDUINO_ARCH_ESP32)
ledcAttachPin(m_nPinR, m_nChannelR);
ledcSetup(m_nChannelR, 5000, 8);
#else
pinMode(m_nPinR, OUTPUT);
#endif
}
void EX_RGB_Dim::setGreenPin(byte pin, byte channel)
{
m_nPinG = pin;
m_nChannelG = channel;
#if defined(ARDUINO_ARCH_ESP32)
ledcAttachPin(m_nPinG, m_nChannelG);
ledcSetup(m_nChannelG, 5000, 8);
#else
pinMode(m_nPinG, OUTPUT);
#endif
}
void EX_RGB_Dim::setBluePin(byte pin, byte channel)
{
m_nPinB = pin;
m_nChannelB = channel;
#if defined(ARDUINO_ARCH_ESP32)
ledcAttachPin(m_nPinB, m_nChannelB);
ledcSetup(m_nChannelB, 5000, 8);
#else
pinMode(m_nPinB, OUTPUT);
#endif
}
}