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// Credits to @mrVanboy, @gwaland and my dearest friend @westward
// Also for @spiff72 for usermod TTGO-T-Display
// 210217
# pragma once
# include "wled.h"
# include <TFT_eSPI.h>
# include <SPI.h>
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# ifndef USER_SETUP_LOADED
# ifndef ST7789_DRIVER
# error Please define ST7789_DRIVER
# endif
# ifndef TFT_WIDTH
# error Please define TFT_WIDTH
# endif
# ifndef TFT_HEIGHT
# error Please define TFT_HEIGHT
# endif
# ifndef TFT_MOSI
# error Please define TFT_MOSI
# endif
# ifndef TFT_SCLK
# error Please define TFT_SCLK
# endif
# ifndef TFT_DC
# error Please define TFT_DC
# endif
# ifndef TFT_RST
# error Please define TFT_RST
# endif
# ifndef LOAD_GLCD
# error Please define LOAD_GLCD
# endif
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# endif
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# ifndef TFT_BL
# define TFT_BL -1
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# endif
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# define USERMOD_ID_ST7789_DISPLAY 97
TFT_eSPI tft = TFT_eSPI ( TFT_WIDTH , TFT_HEIGHT ) ; // Invoke custom library
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// Extra char (+1) for null
# define LINE_BUFFER_SIZE 20
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// How often we are redrawing screen
# define USER_LOOP_REFRESH_RATE_MS 1000
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extern int getSignalQuality ( int rssi ) ;
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//class name. Use something descriptive and leave the ": public Usermod" part :)
class St7789DisplayUsermod : public Usermod {
private :
//Private class members. You can declare variables and functions only accessible to your usermod here
unsigned long lastTime = 0 ;
bool displayTurnedOff = false ;
long lastRedraw = 0 ;
// needRedraw marks if redraw is required to prevent often redrawing.
bool needRedraw = true ;
// Next variables hold the previous known values to determine if redraw is required.
String knownSsid = " " ;
IPAddress knownIp ;
uint8_t knownBrightness = 0 ;
uint8_t knownMode = 0 ;
uint8_t knownPalette = 0 ;
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uint8_t knownEffectSpeed = 0 ;
uint8_t knownEffectIntensity = 0 ;
uint8_t knownMinute = 99 ;
uint8_t knownHour = 99 ;
const uint8_t tftcharwidth = 19 ; // Number of chars that fit on screen with text size set to 2
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long lastUpdate = 0 ;
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void center ( String & line , uint8_t width ) {
int len = line . length ( ) ;
if ( len < width ) for ( byte i = ( width - len ) / 2 ; i > 0 ; i - - ) line = ' ' + line ;
for ( byte i = line . length ( ) ; i < width ; i + + ) line + = ' ' ;
}
/**
* Display the current date and time in large characters
* on the middle rows . Based 24 or 12 hour depending on
* the useAMPM configuration .
*/
void showTime ( ) {
if ( ! ntpEnabled ) return ;
char lineBuffer [ LINE_BUFFER_SIZE ] ;
updateLocalTime ( ) ;
byte minuteCurrent = minute ( localTime ) ;
byte hourCurrent = hour ( localTime ) ;
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//byte secondCurrent = second(localTime);
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knownMinute = minuteCurrent ;
knownHour = hourCurrent ;
byte currentMonth = month ( localTime ) ;
sprintf_P ( lineBuffer , PSTR ( " %s %2d " ) , monthShortStr ( currentMonth ) , day ( localTime ) ) ;
tft . setTextColor ( TFT_SILVER ) ;
tft . setCursor ( 84 , 0 ) ;
tft . setTextSize ( 2 ) ;
tft . print ( lineBuffer ) ;
byte showHour = hourCurrent ;
boolean isAM = false ;
if ( useAMPM ) {
if ( showHour = = 0 ) {
showHour = 12 ;
isAM = true ;
} else if ( showHour > 12 ) {
showHour - = 12 ;
isAM = false ;
} else {
isAM = true ;
}
}
sprintf_P ( lineBuffer , PSTR ( " %2d:%02d " ) , ( useAMPM ? showHour : hourCurrent ) , minuteCurrent ) ;
tft . setTextColor ( TFT_WHITE ) ;
tft . setTextSize ( 4 ) ;
tft . setCursor ( 60 , 24 ) ;
tft . print ( lineBuffer ) ;
tft . setTextSize ( 2 ) ;
tft . setCursor ( 186 , 24 ) ;
//sprintf_P(lineBuffer, PSTR("%02d"), secondCurrent);
if ( useAMPM ) tft . print ( isAM ? " AM " : " PM " ) ;
//else tft.print(lineBuffer);
}
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public :
//Functions called by WLED
/*
* setup ( ) is called once at boot . WiFi is not yet connected at this point .
* You can use it to initialize variables , sensors or similar .
*/
void setup ( )
{
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PinManagerPinType pins [ ] = { { TFT_MOSI , true } , { TFT_MISO , false } , { TFT_SCLK , true } , { TFT_CS , true } , { TFT_DC , true } , { TFT_RST , true } , { TFT_BL , true } } ;
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if ( ! pinManager . allocateMultiplePins ( pins , 7 , PinOwner : : UM_FourLineDisplay ) ) { return ; }
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tft . init ( ) ;
tft . setRotation ( 0 ) ; //Rotation here is set up for the text to be readable with the port on the left. Use 1 to flip.
tft . fillScreen ( TFT_BLACK ) ;
tft . setTextColor ( TFT_RED ) ;
tft . setCursor ( 60 , 100 ) ;
tft . setTextDatum ( MC_DATUM ) ;
tft . setTextSize ( 2 ) ;
tft . print ( " Loading... " ) ;
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if ( TFT_BL > = 0 )
{
pinMode ( TFT_BL , OUTPUT ) ; // Set backlight pin to output mode
digitalWrite ( TFT_BL , HIGH ) ; // Turn backlight on.
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}
}
/*
* connected ( ) is called every time the WiFi is ( re ) connected
* Use it to initialize network interfaces
*/
void connected ( ) {
//Serial.println("Connected to WiFi!");
}
/*
* loop ( ) is called continuously . Here you can check for events , read sensors , etc .
*
* Tips :
* 1. You can use " if (WLED_CONNECTED) " to check for a successful network connection .
* Additionally , " if (WLED_MQTT_CONNECTED) " is available to check for a connection to an MQTT broker .
*
* 2. Try to avoid using the delay ( ) function . NEVER use delays longer than 10 milliseconds .
* Instead , use a timer check as shown here .
*/
void loop ( ) {
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char buff [ LINE_BUFFER_SIZE ] ;
// Check if we time interval for redrawing passes.
if ( millis ( ) - lastUpdate < USER_LOOP_REFRESH_RATE_MS )
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{
return ;
}
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lastUpdate = millis ( ) ;
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// Turn off display after 5 minutes with no change.
if ( ! displayTurnedOff & & millis ( ) - lastRedraw > 5 * 60 * 1000 )
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{
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if ( TFT_BL > = 0 ) digitalWrite ( TFT_BL , LOW ) ; // Turn backlight off.
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displayTurnedOff = true ;
}
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// Check if values which are shown on display changed from the last time.
if ( ( ( ( apActive ) ? String ( apSSID ) : WiFi . SSID ( ) ) ! = knownSsid ) | |
( knownIp ! = ( apActive ? IPAddress ( 4 , 3 , 2 , 1 ) : Network . localIP ( ) ) ) | |
( knownBrightness ! = bri ) | |
( knownEffectSpeed ! = effectSpeed ) | |
( knownEffectIntensity ! = effectIntensity ) | |
( knownMode ! = strip . getMode ( ) ) | |
( knownPalette ! = strip . getSegment ( 0 ) . palette ) )
{
needRedraw = true ;
}
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if ( ! needRedraw )
{
return ;
}
needRedraw = false ;
if ( displayTurnedOff )
{
digitalWrite ( TFT_BL , HIGH ) ; // Turn backlight on.
displayTurnedOff = false ;
}
lastRedraw = millis ( ) ;
// Update last known values.
# if defined(ESP8266)
knownSsid = apActive ? WiFi . softAPSSID ( ) : WiFi . SSID ( ) ;
# else
knownSsid = WiFi . SSID ( ) ;
# endif
knownIp = apActive ? IPAddress ( 4 , 3 , 2 , 1 ) : WiFi . localIP ( ) ;
knownBrightness = bri ;
knownMode = strip . getMode ( ) ;
knownPalette = strip . getSegment ( 0 ) . palette ;
knownEffectSpeed = effectSpeed ;
knownEffectIntensity = effectIntensity ;
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tft . fillScreen ( TFT_BLACK ) ;
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showTime ( ) ;
tft . setTextSize ( 2 ) ;
// Wifi name
tft . setTextColor ( TFT_GREEN ) ;
tft . setCursor ( 0 , 60 ) ;
String line = knownSsid . substring ( 0 , tftcharwidth - 1 ) ;
// Print `~` char to indicate that SSID is longer, than our display
if ( knownSsid . length ( ) > tftcharwidth ) line = line . substring ( 0 , tftcharwidth - 1 ) + ' ~ ' ;
center ( line , tftcharwidth ) ;
tft . print ( line . c_str ( ) ) ;
// Print AP IP and password in AP mode or knownIP if AP not active.
if ( apActive )
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{
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tft . setCursor ( 0 , 84 ) ;
tft . print ( " AP IP: " ) ;
tft . print ( knownIp ) ;
tft . setCursor ( 0 , 108 ) ;
tft . print ( " AP Pass: " ) ;
tft . print ( apPass ) ;
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}
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else
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{
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tft . setCursor ( 0 , 84 ) ;
line = knownIp . toString ( ) ;
center ( line , tftcharwidth ) ;
tft . print ( line . c_str ( ) ) ;
// percent brightness
tft . setCursor ( 0 , 120 ) ;
tft . setTextColor ( TFT_WHITE ) ;
tft . print ( " Bri: " ) ;
tft . print ( ( ( ( int ) bri * 100 ) / 255 ) ) ;
tft . print ( " % " ) ;
// signal quality
tft . setCursor ( 124 , 120 ) ;
tft . print ( " Sig: " ) ;
if ( getSignalQuality ( WiFi . RSSI ( ) ) < 10 ) {
tft . setTextColor ( TFT_RED ) ;
} else if ( getSignalQuality ( WiFi . RSSI ( ) ) < 25 ) {
tft . setTextColor ( TFT_ORANGE ) ;
} else {
tft . setTextColor ( TFT_GREEN ) ;
}
tft . print ( getSignalQuality ( WiFi . RSSI ( ) ) ) ;
tft . setTextColor ( TFT_WHITE ) ;
tft . print ( " % " ) ;
}
// mode name
tft . setTextColor ( TFT_CYAN ) ;
tft . setCursor ( 0 , 144 ) ;
uint8_t qComma = 0 ;
bool insideQuotes = false ;
uint8_t printedChars = 0 ;
char singleJsonSymbol ;
// Find the mode name in JSON
for ( size_t i = 0 ; i < strlen_P ( JSON_mode_names ) ; i + + )
{
singleJsonSymbol = pgm_read_byte_near ( JSON_mode_names + i ) ;
switch ( singleJsonSymbol )
{
case ' " ' :
insideQuotes = ! insideQuotes ;
break ;
case ' [ ' :
case ' ] ' :
break ;
case ' , ' :
qComma + + ;
default :
if ( ! insideQuotes | | ( qComma ! = knownMode ) )
break ;
tft . print ( singleJsonSymbol ) ;
printedChars + + ;
}
if ( ( qComma > knownMode ) | | ( printedChars > tftcharwidth - 1 ) )
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break ;
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}
// palette name
tft . setTextColor ( TFT_YELLOW ) ;
tft . setCursor ( 0 , 168 ) ;
qComma = 0 ;
insideQuotes = false ;
printedChars = 0 ;
// Looking for palette name in JSON.
for ( size_t i = 0 ; i < strlen_P ( JSON_palette_names ) ; i + + )
{
singleJsonSymbol = pgm_read_byte_near ( JSON_palette_names + i ) ;
switch ( singleJsonSymbol )
{
case ' " ' :
insideQuotes = ! insideQuotes ;
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break ;
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case ' [ ' :
case ' ] ' :
break ;
case ' , ' :
qComma + + ;
default :
if ( ! insideQuotes | | ( qComma ! = knownPalette ) )
break ;
tft . print ( singleJsonSymbol ) ;
printedChars + + ;
}
// The following is modified from the code from the u8g2/u8g8 based code (knownPalette was knownMode)
if ( ( qComma > knownPalette ) | | ( printedChars > tftcharwidth - 1 ) )
break ;
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}
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tft . setCursor ( 0 , 192 ) ;
tft . setTextColor ( TFT_SILVER ) ;
sprintf_P ( buff , PSTR ( " FX Spd:%3d Int:%3d " ) , effectSpeed , effectIntensity ) ;
tft . print ( buff ) ;
// Fifth row with estimated mA usage
tft . setTextColor ( TFT_SILVER ) ;
tft . setCursor ( 0 , 216 ) ;
// Print estimated milliamp usage (must specify the LED type in LED prefs for this to be a reasonable estimate).
tft . print ( " Current: " ) ;
tft . setTextColor ( TFT_ORANGE ) ;
tft . print ( strip . currentMilliamps ) ;
tft . print ( " mA " ) ;
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}
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/*
* addToJsonInfo ( ) can be used to add custom entries to the / json / info part of the JSON API .
* Creating an " u " object allows you to add custom key / value pairs to the Info section of the WLED web UI .
* Below it is shown how this could be used for e . g . a light sensor
*/
void addToJsonInfo ( JsonObject & root )
{
JsonObject user = root [ " u " ] ;
if ( user . isNull ( ) ) user = root . createNestedObject ( " u " ) ;
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JsonArray lightArr = user . createNestedArray ( " ST7789 " ) ; //name
lightArr . add ( F ( " installed " ) ) ; //unit
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}
/*
* addToJsonState ( ) can be used to add custom entries to the / json / state part of the JSON API ( state object ) .
* Values in the state object may be modified by connected clients
*/
void addToJsonState ( JsonObject & root )
{
//root["user0"] = userVar0;
}
/*
* readFromJsonState ( ) can be used to receive data clients send to the / json / state part of the JSON API ( state object ) .
* Values in the state object may be modified by connected clients
*/
void readFromJsonState ( JsonObject & root )
{
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//userVar0 = root["user0"] | userVar0; //if "user0" key exists in JSON, update, else keep old value
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//if (root["bri"] == 255) Serial.println(F("Don't burn down your garage!"));
}
/*
* addToConfig ( ) can be used to add custom persistent settings to the cfg . json file in the " um " ( usermod ) object .
* It will be called by WLED when settings are actually saved ( for example , LED settings are saved )
* If you want to force saving the current state , use serializeConfig ( ) in your loop ( ) .
*
* CAUTION : serializeConfig ( ) will initiate a filesystem write operation .
* It might cause the LEDs to stutter and will cause flash wear if called too often .
* Use it sparingly and always in the loop , never in network callbacks !
*
* addToConfig ( ) will also not yet add your setting to one of the settings pages automatically .
* To make that work you still have to add the setting to the HTML , xml . cpp and set . cpp manually .
*
* I highly recommend checking out the basics of ArduinoJson serialization and deserialization in order to use custom settings !
*/
void addToConfig ( JsonObject & root )
{
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//JsonObject top = root.createNestedObject("exampleUsermod");
//top["great"] = userVar0; //save this var persistently whenever settings are saved
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}
/*
* readFromConfig ( ) can be used to read back the custom settings you added with addToConfig ( ) .
* This is called by WLED when settings are loaded ( currently this only happens once immediately after boot )
*
* readFromConfig ( ) is called BEFORE setup ( ) . This means you can use your persistent values in setup ( ) ( e . g . pin assignments , buffer sizes ) ,
* but also that if you want to write persistent values to a dynamic buffer , you ' d need to allocate it here instead of in setup .
* If you don ' t know what that is , don ' t fret . It most likely doesn ' t affect your use case : )
*/
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bool readFromConfig ( JsonObject & root )
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{
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//JsonObject top = root["top"];
//userVar0 = top["great"] | 42; //The value right of the pipe "|" is the default value in case your setting was not present in cfg.json (e.g. first boot)
return true ;
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}
/*
* getId ( ) allows you to optionally give your V2 usermod an unique ID ( please define it in const . h ! ) .
* This could be used in the future for the system to determine whether your usermod is installed .
*/
uint16_t getId ( )
{
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return USERMOD_ID_ST7789_DISPLAY ;
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}
//More methods can be added in the future, this example will then be extended.
//Your usermod will remain compatible as it does not need to implement all methods from the Usermod base class!
} ;