152 lines
4.9 KiB
C++
152 lines
4.9 KiB
C++
// vi:ts=4
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// ----------------------------------------------------------------------------
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// LineWrap - simple demonstration of automatic linewrap functionality
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// Created by Bill Perry 2017-05-10
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// bperrybap@opensource.billsworld.billandterrie.com
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//
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// This example code is unlicensed and is released into the public domain
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// ----------------------------------------------------------------------------
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//
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// This sketch is for the Nortake CU165ECBP-T2J display
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//
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// Sketch demonstrates hd44780 library automatic line wrapping functionality.
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//
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// (Configure LCD_COLS & LCD_ROWS if desired/needed)
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// Expected behavior of the sketch:
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// - display a banner announcing the test.
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// - print the configured LCD geometry
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// - print a long text string to demostrate automatic line wrapping
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// - print lots of characters (slowly) to show how the full wrapping works.
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// (loop)
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//
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// If initialization of the LCD fails and the arduino supports a built in LED,
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// the sketch will simply blink the built in LED with the initalization error
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// code.
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//
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// ----------------------------------------------------------------------------
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// Datasheet can be found here:
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// http://www.blog.zapro.dk/wp-content/CU165.pdf
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// Full datasheet/release notes:
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// http://www.blog.zapro.dk/wp-content/CU165ECPB_T2J_specification.pdf
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//
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// The device uses SPI for communication.
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// Pinout:
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// 1 Vcc
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// 2 GND
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// 3 /CS (SS) - Digital Pin 10 on Uno
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// 4 CLK (SCK) - Digital Pin 13 on Uno
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// 5 DATA (MOSI) - Digital Pin 11 on Uno
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//
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//
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// ----------------------------------------------------------------------------
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// include the needed headers
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#include <SPI.h> // optional, include to use h/w spi
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#include <hd44780.h> // main hd44780 header
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#include <hd44780ioClass/hd44780_NTCU165ECPB.h> // include io class header
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// declare Arduino pins used for LCD functions
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// and the lcd object
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// constructor parameters:
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// lcd([cs], [clock, data])
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// If no parameters, then library will use SS, SCK, and MOSI pins
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// If cs parameter specified, then use it for chip select then SCK and MOSI
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// If <SPI.h> is included and clock & data pins match h/w SPI pins SCK and MOSI,
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// h/w spi will be used
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// If h/w spi is not possible, then the code will fall back to bit banging.
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//
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// NOTE:
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// - Leonardo h/w is "stupid" and does not bring out SS
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// (it only drives an LED)
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// - Leonardo does not bring SPI signals to female headers,
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// they are only on 6 pin ISP header.
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// - ESP8266 is does not use naked constants for digital pin numbers
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//
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//
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// To work around these pin issues in this sketch,
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// Leonardo will use uno digital pins for SPI h/w which means it will
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// will not use h/w spi. All the other boards will use the h/w SPI pins.
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// Consult board pinout diagram to see where SS, SCK, and MOSI are available.
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//
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#if defined(ARDUINO_AVR_LEONARDO) || ( (USB_VID == 0x2341) && (USB_PID == 0x8036) )
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const int cs=10, clk=13, data=11; // uno SPI pins (s/w bit banging will be used)
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#else
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const int cs=SS, clk=SCK, data=MOSI; // use h/w SPI pins on all other boards
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#endif
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hd44780_NTCU165ECPB lcd(cs, clk, data); // declare lcd object
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// LCD geometry
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const int LCD_COLS = 16;
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const int LCD_ROWS = 1;
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void setup()
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{
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int status;
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// initialize LCD with number of columns and rows:
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// hd44780 returns a status from begin() that can be used
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// to determine if initalization failed.
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// the actual status codes are defined in <hd44780.h>
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status = lcd.begin(LCD_COLS, LCD_ROWS);
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if(status) // non zero status means it was unsuccesful
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{
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// begin() failed so blink error code using the onboard LED if possible
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hd44780::fatalError(status); // does not return
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}
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// turn on automatic line wrapping
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// which automatically wraps lines to the next lower line and wraps back
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// to the top when at the bottom line
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// NOTE:
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// noLineWrap() can be used to disable automatic line wrapping.
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// _write() can be called instead of write() to send data bytes
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// to the display bypassing any special character or line wrap processing.
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lcd.lineWrap();
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}
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void loop()
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{
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lcd.clear();
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lcd.print("WrapTest");
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delay(2000);
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lcd.clear();
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//print the configured LCD geometry
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lcd.print(LCD_COLS);
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lcd.print("x");
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lcd.print(LCD_ROWS);
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delay(3000);
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lcd.clear();
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// print a long text string
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// without line wrapping enabled, the text would not wrap properly
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// to the next line.
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if(LCD_COLS == 8)
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lcd.print("A long text line");
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else
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lcd.print("This is a very long line of text");
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delay(3000);
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lcd.clear();
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// now print 2 full displays worth of characters to show
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// the full wrapping.
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lcd.cursor(); // turn on cursor so you can see where it is.
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char c = '0'; // start at the character for the number zero
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for(int i = 2*LCD_COLS*LCD_ROWS; i; i--)
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{
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lcd.print(c++);
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delay(200); // slow things down to watch the printing & wrapping
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if(c > 0x7e) // wrap back to beginning of printable ASCII chars
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c = '!';
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}
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delay(3000);
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lcd.noCursor(); // turn off cursor
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}
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