Scrolling Text sensor node with new V_TEXT

korttoma

@Orkspalter said:

please share the 2.0 version of the sketch

Sure I can do that, I will share it when I get home to the computer where it is located.

A Former User

@korttoma said:

Sure I can do that, I will share it when I get home to the computer where it is located.

Thanks Tomas

gus

Hi,

I'm using this fantastic code as well. This is working on 2.0

Next step for me would be to be able to create an array with more messages, so that the display could cycle thru them.

/*
 PROJECT: MySensors / Scrolling Text display
 PROGRAMMER: AWI
 DATE: september 12, 2015/ last update: september 12, 2015
 FILE: AWI_scroll_MAX.ino
 LICENSE: Public domain

 Hardware: tbd ..Ceech - ATmega328p board w/ NRF24l01
    and MySensors 1.5 ()
        
Special:
    Need to use MySensors development edition 
    
SUMMARY:
    3 S_xx devices for scrolling text
    - Displays a scrolling text from a "V_TEXT" variable
    - additional dimmer sensor for controlling display brightness
    - 'Alarm' switch. If "On", overrides the text display to display ALARM message
    - You can also input messages from the Serial monitor (testing)
    Uses excellent MD_MAX72XX library 
 Remarks:
    Fixed node-id
*/


#include <MD_Parola.h>
#define MY_RADIO_NRF24

// Enable repeater functionality for this node
#define MY_REPEATER_FEATURE



// Use the MD_MAX72XX library to scroll text on the display with the use of the callback function 
// to control what is scrolled on the display text.
// You need to set the used display in the library MD_MAX72XX.h
// User can enter text on the serial monitor and this will display as a
// Speed for the display is controlled by a pot on SPEED_IN analog in.
#include <MD_MAX72xx.h>                     // multipurpose library for MAX72xx diaplay driver  https://parola.codeplex.com/
#include <MySensors.h>                       // Mysensor network
#include <SPI.h>
#include <Time.h>                           //http://playground.arduino.cc/Code/Time
#include <TimeLib.h>
#define USE_POT_CONTROL 0                   // enable Scroll speed  potentiometer
#define PRINT_CALLBACK  1

// Macro to simplify serial print
#define PRINT(s, v) { Serial.print(F(s)); Serial.print(v); }

// Define the number of devices we have in the chain and the hardware interface
// need to be adapted to your setup
const int MAX_DEVICES = 2 ;                 // number of 8x8 displays
const int CLK_PIN = 7 ;                     // SPI like clock
const int DATA_PIN = 8 ;                    // SPI like data
const int CS_PIN = 6 ;                      // SPI like select

// Parola is able to use SPI hardware interface, not testted in combination with MySensors
// MD_MAX72XX mx = MD_MAX72XX(CS_PIN, MAX_DEVICES);
// now use Arbitrary pins
MD_MAX72XX mx = MD_MAX72XX(DATA_PIN, CLK_PIN, CS_PIN, MAX_DEVICES); // instantiate one display chain

// Scrolling parameters, you can attach normal potentiometer to A5, Vcc, Gnd
#if USE_POT_CONTROL
const int SPEED_IN = A5 ;
#else
const int SCROLL_DELAY = 20 ;               // in milliseconds
#endif // USE_POT_CONTROL

const int CHAR_SPACING = 1 ;                // pixels between characters

// MySensors constants & variables
//const byte nodeId = 51 ;                    // MySensors fixed node id
const byte messageCHILD = 8 ;               // Text from ControllerLCD
const byte brightnessChild = 9 ;            // Brightness of display
const byte alarmChild = 10 ;                // Display Alarm text (overrides normal text)
boolean timeReceived = false ;              // Flag to indicate time received
// Display constants & variables
byte textBrightness = 1 ;                   // brightness of display (between 0 - MAX_INTENSITY (0xF)
byte textOnOff = false ;                     // textOnOff = ! shutdown
boolean textAlarm = false ;                 // Alarm (switch S_BINARY)
// Global message buffers shared by MySensors and Scrolling functions
const int BUF_SIZE = 25 ;                   // max payload for MySensors(NRF24l01)
char curMessage[BUF_SIZE];                  // current displayed message
char newMessage[BUF_SIZE];                  // next message to be displayed if available
bool newMessageAvailable = false ;          // new message available flag
uint16_t    scrollDelay;                    // in milliseconds

// *** Definition and initialisation
// define the MySensor network (1.5)
// Initialize messages for sensor network

MyMessage textMsg(messageCHILD, V_TEXT);    // message for Sending Text to Controller


/* MD_MAX72XX functions: can be found in the documentation for the library,
 * no need to customtize callback & scroll routines (unless you want to...)
*/
uint8_t scrollDataSource(uint8_t dev, MD_MAX72XX::transformType_t t)
// Callback function for data that is required for scrolling into the display
{
  static char       *p = curMessage;
  static uint8_t    state = 0;
  static uint8_t    curLen, showLen;
  static uint8_t    cBuf[8];
  uint8_t colData;

  // finite state machine to control what we do on the callback
  switch(state)
  {
    case 0: // Load the next character from the font table
      showLen = mx.getChar(*p++, sizeof(cBuf)/sizeof(cBuf[0]), cBuf);
      curLen = 0;
      state++;

      // if we reached end of message, reset the message pointer
      if (*p == '\0')
      {
        p = curMessage;         // reset the pointer to start of message
        if (newMessageAvailable)    // there is a new message waiting
        {
          strcpy(curMessage, newMessage);   // copy it in
          newMessageAvailable = false;
        }
      }
      // !! deliberately fall through to next state to start displaying

    case 1: // display the next part of the character
      colData = cBuf[curLen++];
      if (curLen == showLen)                // end of character insert interchar space
      {
        showLen = CHAR_SPACING;
        curLen = 0;
        state = 2;
      }
      break;

    case 2: // display inter-character spacing (blank column)
      colData = 0;
      curLen++;
      if (curLen == showLen)
        state = 0;
      break;

    default:
      state = 0;
  }

  return(colData);
}

// Callback (not used here)
void scrollDataSink(uint8_t dev, MD_MAX72XX::transformType_t t, uint8_t col){
// Callback function for data that is being scrolled off the display
#if PRINT_CALLBACK
    Serial.print("\n cb ");
    Serial.print(dev);
    Serial.print(' ');
    Serial.print(t);
    Serial.print(' ');
    Serial.println(col);
#endif
}

// non-blocking text display to be used in loop (call frequently)
void scrollText(void){
    static uint32_t prevTime = 0;
    if (millis()-prevTime >= scrollDelay){                  // Is it time to scroll the text?
        mx.transform(MD_MAX72XX::TSL);                      // scroll along - the callback will load all the data
        prevTime = millis();                                // starting point for next time
        }
    }

// sets the scroll delay (read from potentiometer if enabled)
uint16_t getScrollDelay(void){
#if USE_POT_CONTROL
    uint16_t t = analogRead(SPEED_IN);
    t = map(t, 0, 1023, 25, 250);
    return(t);
#else
    return(SCROLL_DELAY);
#endif
    }

void setup(){
    // set up the display first
    mx.begin();                                             // initialize display chain                 
    mx.setShiftDataInCallback(scrollDataSource);            // define function to get the scrolldata (returned as int8)
    //mx.setShiftDataOutCallback(scrollDataSink);           // not used
    mx.control(MD_MAX72XX::INTENSITY, 0x01);
#if USE_POT_CONTROL                                         // initialize speed potentiometer if enabled
    pinMode(SPEED_IN, INPUT);
#else
    scrollDelay = SCROLL_DELAY;
#endif

    strcpy(curMessage, "I \x03 MySensors ");                // first message on display
    //newMessage[0] = '\0';                                   // new message initialized to empty RE This is not working....
    // Setup MySensors 
   //Serial in Sensor network = 115200
    //Send the sensor node sketch version information to the gateway

} 

void presentation() {

    sendSketchInfo("Scrollo small 52", "1.0");
    present(messageCHILD, S_INFO, "Text line Scroll");   // new S_type 20150905 (not know by domoticz)
    present(alarmChild, S_BINARY, "Alarm display");      // to display alarm text
    present(brightnessChild, S_DIMMER, "Text brightness"); // new S_type 20150905 (not know by domoticz)
    //send(textMsg.set("-"));                            // initialize the V_TEXT at controller for sensor to none (trick for Domoticz)
    request(messageCHILD, V_TEXT, 0);                    // request value from controller
    // Initializations
    requestTime();                            // get the time from controller (handled by receiveTime)
    }

// loop only uses non-blocking functions
void loop() {
    static unsigned long lastUpdate ;                       // Static hold the last update time
    unsigned long now = millis();
    scrollDelay = getScrollDelay();                         // update scroll delay from potentiometer
    //readSerial();
    // Check for new conditions & ask for new information from controller every 10 seconds
    if (now-lastUpdate > 10000){
        if (textAlarm){                                     // if alarmstatus: override all text and set max intensity
            strcpy(curMessage, "   ALARM   ");
            mx.control(MD_MAX72XX::INTENSITY, MAX_INTENSITY);   // set current brightness
            mx.control(MD_MAX72XX::SHUTDOWN, false) ;
        } else {                                            // standard (non Alarm actions)
            mx.control(MD_MAX72XX::INTENSITY, textBrightness);  // set current brightness
            mx.control(MD_MAX72XX::SHUTDOWN, textOnOff) ;
            request(messageCHILD, V_TEXT, 0);                // request new value from controller
        }
        lastUpdate = now;
    }
    scrollText();
}
 
// This is called when a new time value was received
void receiveTime(unsigned long controllerTime) {
    Serial.print("Time value received: ");
    Serial.println(controllerTime);
    setTime(controllerTime);                                // time from controller
    timeReceived = true;
    } 

// This is called when a message is received 
void receive(const MyMessage &message) {
    Serial.print("Message: "); Serial.print(message.sensor); Serial.print(", Message: "); Serial.println(message.getString());
    if (message.sensor == messageCHILD){
        if (message.type==V_TEXT) {                     // Text content
        strcpy(newMessage, message.getString());        // copy it in
            newMessageAvailable = true ;
        }
    } else if (message.sensor == alarmChild) {
        if (message.type==V_STATUS) {                   // True/ false content
            textAlarm = message.getBool()?true:false ;  // set alarmflag
            Serial.print("TextAlarm: ");
            Serial.println(textAlarm);
        }
    } else if (message.sensor == brightnessChild){
        if (message.type==V_PERCENTAGE) {               // Level 0..100  content
            textBrightness = map(message.getInt(),0, 100, 0, MAX_INTENSITY ) ;  // map to brightnesslevel 
            Serial.print("TextBrightness: ");
            Serial.println(textBrightness);
        } else if (message.type==V_STATUS) {            // Display on/off
            textOnOff = message.getBool()?false:true ;      // set shutdown/ !on/off
            Serial.print("Text on/off: ");
            Serial.println(textOnOff);
        }
    }
}

    
// Testing purposes: input routine character buffer. Reads serial characters in buffer newMessage.
// sets flag newMessageAvailable to true if completed
void readSerial(void)
{
  static uint8_t    putIndex = 0;

  while (Serial.available())
  {
    newMessage[putIndex] = (char)Serial.read();
    if ((newMessage[putIndex] == '\n') || (putIndex >= BUF_SIZE-3)) // end of message character or full buffer
    {
      // put in a message separator and end the string
      newMessage[putIndex++] = ' ';
      newMessage[putIndex] = '\0';
      // restart the index for next filling spree and flag we have a message waiting
      putIndex = 0;
      newMessageAvailable = true;
    }
    else
      // Just save the next char in next location
      newMessage[putIndex++];
  }
}

korttoma

@gus you beat me to it, nice job!

Sorry @Orkspalter I forgot yesterday but I'm sure the one @gus posted is quite similar.

Is there anyone out there using this setup that have a sketch that can handle scandinavian letters (å, ä, ö). I just get gibberish instead of the letters.

korttoma

@korttoma here is the sketch I'm using, probably quite similar to the one @gus shared

/*
 PROJECT: MySensors / Scrolling Text display
 PROGRAMMER: AWI
 DATE: september 12, 2015/ last update: september 12, 2015
 FILE: AWI_scroll_MAX.ino
 LICENSE: Public domain

 Hardware: tbd ..Ceech - ATmega328p board w/ NRF24l01
    and MySensors 1.5 ()
        
Special:
    Need to use MySensors development edition 
    
SUMMARY:
    3 S_xx devices for scrolling text
    - Displays a scrolling text from a "V_TEXT" variable
    - additional dimmer sensor for controlling display brightness
    - 'Alarm' switch. If "On", overrides the text display to display ALARM message
    - You can also input messages from the Serial monitor (testing)
    Uses excellent MD_MAX72XX library 
 Remarks:
    Fixed node-id
*/

// Use the MD_MAX72XX library to scroll text on the display with the use of the callback function 
// to control what is scrolled on the display text.
// You need to set the used display in the library MD_MAX72XX.h
// User can enter text on the serial monitor and this will display as a
// Speed for the display is controlled by a pot on SPEED_IN analog in.

#define MY_DEBUG 
#define MY_BAUD_RATE  9600
#define MY_RADIO_NRF24

#define MY_NODE_ID  20
#define SN "Scrolling Text"
#define SV "2.1"
#include <MyConfig.h>
#include <MySensors.h>
#include <MD_MAX72xx.h>                     // multipurpose library for MAX72xx diaplay driver  https://parola.codeplex.com/
#include <SPI.h>
#include <Time.h>                           //http://playground.arduino.cc/Code/Time
#define USE_POT_CONTROL 0                   // enable Scroll speed  potentiometer
#define PRINT_CALLBACK  1

// Macro to simplify serial print
#define PRINT(s, v) { Serial.print(F(s)); Serial.print(v); }

// Define the number of devices we have in the chain and the hardware interface
// need to be adapted to your setup
const int MAX_DEVICES = 8 ;                 // number of 8x8 displays
const int CLK_PIN = 7 ;                     // SPI like clock
const int DATA_PIN = 8 ;                    // SPI like data
const int CS_PIN = 6 ;                      // SPI like select

// Parola is able to use SPI hardware interface, not testted in combination with MySensors
// MD_MAX72XX mx = MD_MAX72XX(CS_PIN, MAX_DEVICES);
// now use Arbitrary pins
MD_MAX72XX mx = MD_MAX72XX(DATA_PIN, CLK_PIN, CS_PIN, MAX_DEVICES); // instantiate one display chain

// Scrolling parameters, you can attach normal potentiometer to A5, Vcc, Gnd
#if USE_POT_CONTROL
const int SPEED_IN = A5 ;
#else
const int SCROLL_DELAY = 60 ;               // in milliseconds
#endif // USE_POT_CONTROL

const int CHAR_SPACING = 1 ;                // pixels between characters

// MySensors constants & variables
const byte messageCHILD = 8 ;               // Text from ControllerLCD
const byte brightnessChild = 9 ;            // Brightness of display
const byte alarmChild = 10 ;                // Display Alarm text (overrides normal text)
boolean timeReceived = false ;              // Flag to indicate time received
// Display constants & variables
byte textBrightness = 1 ;                   // brightness of display (between 0 - MAX_INTENSITY (0xF)
byte textOnOff = false ;                     // textOnOff = ! shutdown
boolean textAlarm = false ;                 // Alarm (switch S_BINARY)
// Global message buffers shared by MySensors and Scrolling functions
const int BUF_SIZE = 25 ;                   // max payload for MySensors(NRF24l01)
char curMessage[BUF_SIZE];                  // current displayed message
char newMessage[BUF_SIZE];                  // next message to be displayed if available
bool newMessageAvailable = false ;          // new message available flag
uint16_t    scrollDelay;                    // in milliseconds

// *** Definition and initialisation
// define the MySensor network (1.5)
 
// Initialize messages for sensor network
MyMessage textMsg(messageCHILD, V_TEXT);    // message for Sending Text to Controller


void presentation()  
{ 
 // Send the sketch version information to the gateway and Controller
  
  sendSketchInfo(SN, SV);
  // Register all sensors to gateway (they will be created as child devices)
   present(messageCHILD, S_INFO, "Text line Scroll");   // new S_type 20150905 (not know by domoticz)
   wait(200);
   present(alarmChild, S_BINARY, "Alarm display");      // to display alarm text
   wait(200);
   present(brightnessChild, S_DIMMER, "Text brightness"); // new S_type 20150905 (not know by domoticz)
   //gw.send(textMsg.set("-"));                            // initialize the V_TEXT at controller for sensor to none (trick for Domoticz)
   wait(200);
   request(messageCHILD, V_TEXT, 0);                    // request value from controller
    // Initializations
   wait(200);
   requestTime(receiveTime);                            // get the time from controller (handled by receiveTime)
   
   wait(200);

  
}

/* MD_MAX72XX functions: can be found in the documentation for the library,
 * no need to customtize callback & scroll routines (unless you want to...)
*/
uint8_t scrollDataSource(uint8_t dev, MD_MAX72XX::transformType_t t)
// Callback function for data that is required for scrolling into the display
{
  static char       *p = curMessage;
  static uint8_t    state = 0;
  static uint8_t    curLen, showLen;
  static uint8_t    cBuf[8];
  uint8_t colData;

  // finite state machine to control what we do on the callback
  switch(state)
  {
    case 0: // Load the next character from the font table
      showLen = mx.getChar(*p++, sizeof(cBuf)/sizeof(cBuf[0]), cBuf);
      curLen = 0;
      state++;

      // if we reached end of message, reset the message pointer
      if (*p == '\0')
      {
        p = curMessage;         // reset the pointer to start of message
        if (newMessageAvailable)    // there is a new message waiting
        {
          strcpy(curMessage, newMessage);   // copy it in
          newMessageAvailable = false;
        }
      }
      // !! deliberately fall through to next state to start displaying

    case 1: // display the next part of the character
      colData = cBuf[curLen++];
      if (curLen == showLen)                // end of character insert interchar space
      {
        showLen = CHAR_SPACING;
        curLen = 0;
        state = 2;
      }
      break;

    case 2: // display inter-character spacing (blank column)
      colData = 0;
      curLen++;
      if (curLen == showLen)
        state = 0;
      break;

    default:
      state = 0;
  }

  return(colData);
}

// Callback (not used here)
void scrollDataSink(uint8_t dev, MD_MAX72XX::transformType_t t, uint8_t col){
// Callback function for data that is being scrolled off the display
#if PRINT_CALLBACK
    Serial.print("\n cb ");
    Serial.print(dev);
    Serial.print(' ');
    Serial.print(t);
    Serial.print(' ');
    Serial.println(col);
#endif
}

// non-blocking text display to be used in loop (call frequently)
void scrollText(void){
    static uint32_t prevTime = 0;
    if (millis()-prevTime >= scrollDelay){                  // Is it time to scroll the text?
        mx.transform(MD_MAX72XX::TSL);                      // scroll along - the callback will load all the data
        prevTime = millis();                                // starting point for next time
        }
    }

// sets the scroll delay (read from potentiometer if enabled)
uint16_t getScrollDelay(void){
#if USE_POT_CONTROL
    uint16_t t = analogRead(SPEED_IN);
    t = map(t, 0, 1023, 25, 250);
    return(t);
#else
    return(SCROLL_DELAY);
#endif
    }

void setup(){
    // set up the display first
    mx.begin();                                             // initialize display chain                 
    mx.setShiftDataInCallback(scrollDataSource);            // define function to get the scrolldata (returned as int8)
    //mx.setShiftDataOutCallback(scrollDataSink);           // not used
    mx.control(MD_MAX72XX::INTENSITY, 0x01);
#if USE_POT_CONTROL                                         // initialize speed potentiometer if enabled
    pinMode(SPEED_IN, INPUT);
#else
    scrollDelay = SCROLL_DELAY;
#endif

    strcpy(curMessage, "HEJ ARON      ");                // first message on display
    newMessage[0] = '\0';                                   // new message initialized to empty
    // Setup MySensors 
   //Serial in Sensor network = 115200
}    
   

// loop only uses non-blocking functions
void loop() {
    static unsigned long lastUpdate ;                       // Static hold the last update time
    unsigned long now = millis();
    scrollDelay = getScrollDelay();                         // update scroll delay from potentiometer
    readSerial();
    // Check for new conditions & ask for new information from controller every 10 seconds
    if (now-lastUpdate > 10000){
        if (textAlarm){                                     // if alarmstatus: override all text and set max intensity
            strcpy(curMessage, "   ALARM   ");
            mx.control(MD_MAX72XX::INTENSITY, MAX_INTENSITY);   // set current brightness
            mx.control(MD_MAX72XX::SHUTDOWN, false) ;
        } else {                                            // standard (non Alarm actions)
            mx.control(MD_MAX72XX::INTENSITY, textBrightness);  // set current brightness
            mx.control(MD_MAX72XX::SHUTDOWN, textOnOff) ;
            request(messageCHILD, V_TEXT, 0);                // request new value from controller
        }
        lastUpdate = now;
    }
    scrollText();
}
 
// This is called when a new time value was received
void receiveTime(unsigned long controllerTime) {
    Serial.print("Time value received: ");
    Serial.println(controllerTime);
    setTime(controllerTime);                                // time from controller
    timeReceived = true;
    } 

// This is called when a message is received 
void receive(const MyMessage &message) {
    Serial.print("Message: "); Serial.print(message.sensor); Serial.print(", Message: "); Serial.println(message.getString());
    if (message.sensor == messageCHILD){
        if (message.type==V_TEXT) {                     // Text content
        strcpy(newMessage, message.getString());        // copy it in
            newMessageAvailable = true ;
        }
    } else if (message.sensor == alarmChild) {
        if (message.type==V_STATUS) {                   // True/ false content
            textAlarm = message.getBool()?true:false ;  // set alarmflag
            Serial.print("TextAlarm: ");
            Serial.println(textAlarm);
        }
    } else if (message.sensor == brightnessChild){
        if (message.type==V_PERCENTAGE) {               // Level 0..100  content
            int IncomingBrightness = message.getInt();
            if (IncomingBrightness == 0) {
              textOnOff = true;
            }else {
              textOnOff = false;
              textBrightness = map(message.getInt(),0, 100, 0, MAX_INTENSITY ) ;  // map to brightnesslevel 
            Serial.print("TextBrightness: ");
            Serial.println(textBrightness);
            }
                       
        } else if (message.type==V_STATUS) {            // Display on/off
            textOnOff = message.getBool()?false:true ;      // set shutdown/ !on/off
            Serial.print("Text on/off: ");
            Serial.println(textOnOff);
        }
    }
}

    
// Testing purposes: input routine character buffer. Reads serial characters in buffer newMessage.
// sets flag newMessageAvailable to true if completed
void readSerial(void)
{
  static uint8_t    putIndex = 0;

  while (Serial.available())
  {
    newMessage[putIndex] = (char)Serial.read();
    if ((newMessage[putIndex] == '\n') || (putIndex >= BUF_SIZE-3)) // end of message character or full buffer
    {
      // put in a message separator and end the string
      newMessage[putIndex++] = ' ';
      newMessage[putIndex] = '\0';
      // restart the index for next filling spree and flag we have a message waiting
      putIndex = 0;
      newMessageAvailable = true;
    }
    else
      // Just save the next char in next location
      newMessage[putIndex++];
  }
}

korttoma

Anybody have an example where this setup shows the time while there is no message to scroll?

artur

@korttoma

Here are found the blank, you need to check how it works

/*
  PROJECT: MySensors / Scrolling Text display
  PROGRAMMER: AWI
  DATE: september 12, 2015/ last update: september 12, 2015
  FILE: AWI_scroll_MAX.ino
  LICENSE: Public domain

  Hardware: tbd ..Ceech - ATmega328p board w/ NRF24l01
    and MySensors 1.5 ()

  Special:
    Need to use MySensors development edition

  SUMMARY:
    3 S_xx devices for scrolling text
    - Displays a scrolling text from a "V_TEXT" variable
    - additional dimmer sensor for controlling display brightness
    - 'Alarm' switch. If "On", overrides the text display to display ALARM message
    - You can also input messages from the Serial monitor (testing)
    Uses excellent MD_MAX72XX library
  Remarks:
    Fixed node-id
*/
// Enable debug prints to serial monitor
#define MY_DEBUG

// Enable and select radio type attached
#define MY_RADIO_NRF24
//#define MY_RADIO_RFM69

#define  DEBUG 0   // Enable or disable (default) debugging output

// Use the MD_MAX72XX library to scroll text on the display with the use of the callback function
// to control what is scrolled on the display text.
// You need to set the used display in the library MD_MAX72XX.h
// User can enter text on the serial monitor and this will display as a
// Speed for the display is controlled by a pot on SPEED_IN analog in.
#include <MD_MAX72xx.h>                     // multipurpose library for MAX72xx diaplay driver  https://parola.codeplex.com/
#include <MySensor.h>                       // Mysensor network
#include <SPI.h>
#include <Time.h>                           //http://playground.arduino.cc/Code/Time
#define PRINT_CALLBACK  0

// Macro to simplify serial print
#define PRINT(s, v) { Serial.print(F(s)); Serial.print(v); }
#define  PRINTS(x) Serial.print(F(x))
#define PRINTD(x) Serial.println(x, DEC)

// Define the number of devices we have in the chain and the hardware interface
// need to be adapted to your setup
const int MAX_DEVICES = 8 ;                 // number of 8x8 displays
const int CLK_PIN = 7 ;                     // SPI like clock
const int DATA_PIN = 8 ;                    // SPI like data
const int CS_PIN = 6 ;                      // SPI like select


// Parola is able to use SPI hardware interface, not testted in combination with MySensors
// MD_MAX72XX mx = MD_MAX72XX(CS_PIN, MAX_DEVICES);
// now use Arbitrary pins
MD_MAX72XX mx = MD_MAX72XX(DATA_PIN, CLK_PIN, CS_PIN, MAX_DEVICES); // instantiate one display chain


const int SCROLL_DELAY = 20 ;               // in milliseconds


const int CHAR_SPACING = 1 ;                // pixels between characters

int statetus_tame = 1;
char sdate[11];
char stime[9];
// MySensors constants & variables
//const byte nodeId = 51 ;                    // MySensors fixed node id
const byte messageCHILD = 8 ;               // Text from ControllerLCD
const byte brightnessChild = 9 ;            // Brightness of display
const byte alarmChild = 10 ;                // Display Alarm text (overrides normal text)
boolean timeReceived = false ;              // Flag to indicate time received
// Display constants & variables
byte textBrightness = 1 ;                   // brightness of display (between 0 - MAX_INTENSITY (0xF)
byte textOnOff = true ;                     // textOnOff = ! shutdown
boolean textAlarm = false ;                 // Alarm (switch S_BINARY)
// Global message buffers shared by MySensors and Scrolling functions
const int BUF_SIZE = 25 ;                   // max payload for MySensors(NRF24l01)
char curMessage[BUF_SIZE];                  // current displayed message
char newMessage[BUF_SIZE];                  // next message to be displayed if available
bool newMessageAvailable = false ;          // new message available flag
uint16_t    scrollDelay;                    // in milliseconds

// *** Definition and initialisation
// define the MySensor network (1.5)
// Initialize messages for sensor network
MyMessage textMsg(messageCHILD, V_TEXT);    // message for Sending Text to Controller


/* MD_MAX72XX functions: can be found in the documentation for the library,
   no need to customtize callback & scroll routines (unless you want to...)
*/
uint8_t scrollDataSource(uint8_t dev, MD_MAX72XX::transformType_t t)
// Callback function for data that is required for scrolling into the display
{
  static char       *p = curMessage;
  static uint8_t    state = 0;
  static uint8_t    curLen, showLen;
  static uint8_t    cBuf[8];
  uint8_t colData;

  // finite state machine to control what we do on the callback
  switch (state)
  {
    case 0: // Load the next character from the font table
      showLen = mx.getChar(*p++, sizeof(cBuf) / sizeof(cBuf[0]), cBuf);
      curLen = 0;
      state++;

      // if we reached end of message, reset the message pointer
      if (*p == '\0')
      {
        p = curMessage;         // reset the pointer to start of message
        if (newMessageAvailable)    // there is a new message waiting
        {
          strcpy(curMessage, newMessage);   // copy it in
          newMessageAvailable = false;
        }
      }
    // !! deliberately fall through to next state to start displaying

    case 1: // display the next part of the character
      colData = cBuf[curLen++];
      if (curLen == showLen)                // end of character insert interchar space
      {
        showLen = CHAR_SPACING;
        curLen = 0;
        state = 2;
      }
      break;

    case 2: // display inter-character spacing (blank column)
      colData = 0;
      curLen++;
      if (curLen == showLen)
        state = 0;
      break;

    default:
      state = 0;
  }

  return (colData);
}

void printText(uint8_t modStart, uint8_t modEnd, char *pMsg)
// Print the text string to the LED matrix modules specified.
// Message area is padded with blank columns after printing.
{
  uint8_t   state = 0;
  uint8_t    curLen;
  uint16_t  showLen;
  uint8_t   cBuf[8];
  int16_t   col = ((modEnd + 1) * COL_SIZE) - 1;
  mx.control(modStart, modEnd, MD_MAX72XX::UPDATE, MD_MAX72XX::OFF);

  do     // finite state machine to print the characters in the space available
  {
    switch (state)
    {
      case 0: // Load the next character from the font table
        // if we reached end of message, reset the message pointer
        if (*pMsg == '\0')
        {
          showLen = col - (modEnd * COL_SIZE);  // padding characters
          state = 2;
          break;
        }
        // retrieve the next character form the font file
        showLen = mx.getChar(*pMsg++, sizeof(cBuf) / sizeof(cBuf[0]), cBuf);
        curLen = 0;
        state++;
      // !! deliberately fall through to next state to start displaying

      case 1: // display the next part of the character
        mx.setColumn(col--, cBuf[curLen++]);
        // done with font character, now display the space between chars
        if (curLen == showLen)
        {
          showLen = CHAR_SPACING;
          state = 2;
        }
        break;

      case 2: // initialize state for displaying empty columns
        curLen = 0;
        state++;
      // fall through

      case 3: // display inter-character spacing or end of message padding (blank columns)
        mx.setColumn(col--, 0);
        curLen++;
        if (curLen == showLen)
          state = 0;
        break;

      default:
        col = -1;   // this definitely ends the do loop
    }
  } while (col >= (modStart * COL_SIZE));
  mx.control(modStart, modEnd, MD_MAX72XX::UPDATE, MD_MAX72XX::ON);

}


void scrollDataSink(uint8_t dev, MD_MAX72XX::transformType_t t, uint8_t col) {
  // Callback function for data that is being scrolled off the display
#if PRINT_CALLBACK
  Serial.print("\n cb ");
  Serial.print(dev);
  Serial.print(' ');
  Serial.print(t);
  Serial.print(' ');
  Serial.println(col);
#endif
}

// non-blocking text display to be used in loop (call frequently)
void scrollText(void) {
  static uint32_t prevTime = 0;
  if (millis() - prevTime >= scrollDelay) {               // Is it time to scroll the text?
    mx.transform(MD_MAX72XX::TSL);                      // scroll along - the callback will load all the data
    prevTime = millis();                                // starting point for next time
  }
}

// sets the scroll delay (read from potentiometer if enabled)
uint16_t getScrollDelay(void) {
  return (SCROLL_DELAY);
}

void setup() {
  // set up the display first
  mx.begin();                                             // initialize display chain
  mx.setShiftDataInCallback(scrollDataSource);            // define function to get the scrolldata (returned as int8)
  //mx.setShiftDataOutCallback(scrollDataSink);           // not used
  mx.control(MD_MAX72XX::INTENSITY, 0x01);
  scrollDelay = SCROLL_DELAY;


  strcpy(curMessage, "I \x03 MySensors ");                // first message on display
  newMessage[0] = '\0';                                   // new message initialized to empty
  // Setup MySensors
  //Serial in Sensor network = 115200
  //Send the sensor node sketch version information to the gateway

}

void presentation() {

  sendSketchInfo("AWI Scroll MAX 51", "1.1");
  present(messageCHILD, S_INFO, "Text line Scroll");   // new S_type 20150905 (not know by domoticz)
  present(alarmChild, S_BINARY, "Alarm display");      // to display alarm text
  present(brightnessChild, S_DIMMER, "Text brightness"); // new S_type 20150905 (not know by domoticz)
  //send(textMsg.set("-"));                            // initialize the V_TEXT at controller for sensor to none (trick for Domoticz)
  request(messageCHILD, V_TEXT, 0);                    // request value from controller
  // Initializations
  requestTime();                            // get the time from controller (handled by receiveTime)
}


// loop only uses non-blocking functions
void loop() {
  static unsigned long lastUpdate ;                       // Static hold the last update time
  static unsigned long lastUpdate2 ;                       // Static hold the last update time
  unsigned long now = millis();
  scrollDelay = getScrollDelay();                         // update scroll delay from potentiometer
  readSerial();
  // Check for new conditions & ask for new information from controller every 10 seconds
  if (now - lastUpdate > 30000 && statetus_tame == 0) {
    statetus_tame = 0;
    sprintf(sdate, "%02d-%02d-%d", day(), month(), year());
    printText(0, MAX_DEVICES - 1, sdate);
    lastUpdate = now;
  }
  if (textAlarm) {                                    // if alarmstatus: override all text and set max intensity
    //strcpy(curMessage, "   ALARM   ");
    mx.control(MD_MAX72XX::INTENSITY, MAX_INTENSITY);   // set current brightness
    mx.control(MD_MAX72XX::SHUTDOWN, false) ;
  } else {                                            // standard (non Alarm actions)
   /* 
      mx.control(MD_MAX72XX::INTENSITY, textBrightness);  // set current brightness
      mx.control(MD_MAX72XX::SHUTDOWN, textOnOff) ;
      request(messageCHILD, V_TEXT, 0);                // request new value from controller
    */
  }
  if (textAlarm) {
    scrollText();
  } else {
    //sprintf(stime, "%02d:%02d:%02d", hour(), minute(), second());
    if (statetus_tame == 1) {
      sprintf(stime, "%02d:%02d:%02d", hour(), minute(), second());
      printText(0, MAX_DEVICES - 3, stime);
      mx.setShiftDataOutCallback(scrollDataSink);
    }
    mx.control(MD_MAX72XX::INTENSITY, textBrightness);   // set current brightness
  }
  if (now - lastUpdate2 > 32000) {
    statetus_tame = 1;
    mx.clear();
    lastUpdate2 = now;
  }
if (now - lastUpdate >33000 ){
  requestTime();
  lastUpdate = now;
}

}

// This is called when a new time value was received
void receiveTime(unsigned long controllerTime) {
  Serial.print("Time value received: ");
  Serial.println(controllerTime);
  setTime(controllerTime);                                // time from controller
  timeReceived = true;
}

// This is called when a message is received
void receive(const MyMessage &message) {
  Serial.print("Message: "); Serial.print(message.sensor); Serial.print(", Message: "); Serial.println(message.getString());
  if (message.sensor == messageCHILD) {
    if (message.type == V_TEXT) {                   // Text content
      strcpy(newMessage, message.getString());        // copy it in
      newMessageAvailable = true ;
    }
  } else if (message.sensor == alarmChild) {
    if (message.type == V_STATUS) {                 // True/ false content
      textAlarm = message.getBool() ? true : false ; // set alarmflag
      Serial.print("TextAlarm: ");
      Serial.println(textAlarm);
    }
  } else if (message.sensor == brightnessChild) {
    if (message.type == V_PERCENTAGE) {             // Level 0..100  content
      textBrightness = map(message.getInt(), 0, 100, 0, MAX_INTENSITY ) ; // map to brightnesslevel
      Serial.print("TextBrightness: ");
      Serial.println(textBrightness);
    } else if (message.type == V_STATUS) {          // Display on/off
      textOnOff = message.getBool() ? false : true ;  // set shutdown/ !on/off
      Serial.print("Text on/off: ");
      Serial.println(textOnOff);
    }
  }
}


// Testing purposes: input routine character buffer. Reads serial characters in buffer newMessage.
// sets flag newMessageAvailable to true if completed
void readSerial(void)
{
  static uint8_t    putIndex = 0;

  while (Serial.available())
  {
    newMessage[putIndex] = (char)Serial.read();
    if ((newMessage[putIndex] == '\n') || (putIndex >= BUF_SIZE - 3)) // end of message character or full buffer
    {
      // put in a message separator and end the string
      newMessage[putIndex++] = ' ';
      newMessage[putIndex] = '\0';
      // restart the index for next filling spree and flag we have a message waiting
      putIndex = 0;
      newMessageAvailable = true;
    }
    else
      // Just save the next char in next location
      newMessage[putIndex++];
  }
}

korttoma

@artur thanks for your example. I managed to make it show the time. Now I just need to figure out how to make it show the text also.

shabba

Sorry for hijack. I am trying to get domoticz to show text from a node but am not able to.

present(2, S_INFO, "Gate Open Reason");
[..]
MyMessage msg2(2,V_TEXT);
[..]
String reason = "blah";
send(msg2.set(reason));

But domoticz only shows a 1. Probably missing something obvious?

AWI

@shabba Try without using "String" type use "char[x]" instead. In general you should try to avoid using this type in real time environments. send(msg2.set("Blah")); should do the trick in first instance.

shabba

@AWI Derp! Looking at the headers that looks right! Will try a little later and report. Thanks!

shabba

I just did send(msg2.set(reason.c_str())); and it worked. Thanks @AWI