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UI_LCD.h
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UI_LCD.h
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/*
Copyright (C) 2009, 2010 Matt Reba, Jeremiah Dillingham
This file is part of BrewTroller.
BrewTroller is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
BrewTroller 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 BrewTroller. If not, see <http://www.gnu.org/licenses/>.
BrewTroller - Open Source Brewing Computer
Software Lead: Matt Reba (matt_AT_brewtroller_DOT_com)
Hardware Lead: Jeremiah Dillingham (jeremiah_AT_brewtroller_DOT_com)
Documentation, Forums and more information available at http://www.brewtroller.com
*/
#ifndef UILCD_H
#define UILCD_H
#include "Config.h"
#include "Enum.h"
#include "HWProfile.h"
#include <Wire.h>
#include <LiquidCrystalFP.h>
#include <stdlib.h> // for malloc and free
#include <EEPROM.h>
void* operator new(size_t size) { return malloc(size); }
void operator delete(void* ptr) { free(ptr); }
//*****************************************************************************************************************************
// 4-Bit GPIO LCD Class
//*****************************************************************************************************************************
//**********************************************************************************
// LCD Timing Fix
//**********************************************************************************
// Some LCDs seem to have issues with displaying garbled characters but introducing
// a delay seems to help or resolve completely. You may comment out the following
// lines to remove this delay between a print of each character.
//
//#define LCD_DELAY_CURSOR 60
//#define LCD_DELAY_CHAR 60
//**********************************************************************************
class LCD4Bit
{
public:
#ifndef UI_DISPLAY_SETUP
LCD4Bit(byte rs, byte enable, byte d4, byte d5, byte d6, byte d7) {
_lcd = new LiquidCrystal(rs, enable, d4, d5, d6, d7);
}
#else
LCD4Bit(byte rs, byte enable, byte d4, byte d5, byte d6, byte d7, byte b, byte c) {
_lcd = new LiquidCrystal(rs, enable, d4, d5, d6, d7);
brightPin = b;
contrastPin = c;
}
#endif
void init(){
_lcd->begin(20, 4);
#ifdef UI_DISPLAY_SETUP
TCCR2B = 0x01;
pinMode(brightPin, OUTPUT);
pinMode(contrastPin, OUTPUT);
setBright(loadLCDBright());
setContrast(loadLCDContrast());
#endif
}
void update() { }
void print(byte iRow, byte iCol, char sText[]){
_lcd->setCursor(iCol, iRow);
#ifdef LCD_DELAY_CURSOR
delayMicroseconds(LCD_DELAY_CURSOR);
#endif
int i = 0;
while (sText[i] != 0) {
_lcd->print(sText[i++]);
#ifdef LCD_DELAY_CHAR
delayMicroseconds(LCD_DELAY_CHAR);
#endif
}
}
//Version of PrintLCD reading from PROGMEM
void print_P(byte iRow, byte iCol, const char *sText){
_lcd->setCursor(iCol, iRow);
while (pgm_read_byte(sText) != 0) {
_lcd->print(pgm_read_byte(sText++));
#ifdef LCD_DELAY_CHAR
delayMicroseconds(LCD_DELAY_CHAR);
#endif
}
}
void clear(){
_lcd->begin(20, 4);
}
void center(byte iRow, byte iCol, char sText[], byte fieldWidth){
rPad(iRow, iCol, "", fieldWidth, ' ');
if (strlen(sText) < fieldWidth) _lcd->setCursor(iCol + ((fieldWidth - strlen(sText)) / 2), iRow);
else _lcd->setCursor(iCol, iRow);
#ifdef LCD_DELAY_CURSOR
delayMicroseconds(LCD_DELAY_CURSOR);
#endif
int i = 0;
while (sText[i] != 0) {
_lcd->print(sText[i++]);
#ifdef LCD_DELAY_CHAR
delayMicroseconds(LCD_DELAY_CHAR);
#endif
}
}
char lPad(byte iRow, byte iCol, char sText[], byte length, char pad) {
_lcd->setCursor(iCol, iRow);
#ifdef LCD_DELAY_CURSOR
delayMicroseconds(LCD_DELAY_CURSOR);
#endif
if (strlen(sText) < length) {
for (byte i=0; i < length-strlen(sText); i++) {
_lcd->print(pad);
#ifdef LCD_DELAY_CHAR
delayMicroseconds(LCD_DELAY_CHAR);
#endif
}
}
int i = 0;
while (sText[i] != 0) {
_lcd->print(sText[i++]);
#ifdef LCD_DELAY_CHAR
delayMicroseconds(LCD_DELAY_CHAR);
#endif
}
}
char rPad(byte iRow, byte iCol, char sText[], byte length, char pad) {
_lcd->setCursor(iCol, iRow);
#ifdef LCD_DELAY_CURSOR
delayMicroseconds(LCD_DELAY_CURSOR);
#endif
int i = 0;
while (sText[i] != 0) {
_lcd->print(sText[i++]);
#ifdef LCD_DELAY_CHAR
delayMicroseconds(LCD_DELAY_CHAR);
#endif
}
if (strlen(sText) < length) {
for (byte i=0; i < length-strlen(sText) ; i++) {
_lcd->print(pad);
#ifdef LCD_DELAY_CHAR
delayMicroseconds(LCD_DELAY_CHAR);
#endif
}
}
}
void setCustChar_P(byte slot, const byte *charDef) {
_lcd->command(64 | (slot << 3));
for (byte i = 0; i < 8; i++) {
_lcd->write(pgm_read_byte(charDef++));
#ifdef LCD_DELAY_CHAR
delayMicroseconds(LCD_DELAY_CHAR);
#endif
}
_lcd->command(B10000000);
}
void writeCustChar(byte iRow, byte iCol, byte slot) {
_lcd->setCursor(iCol, iRow);
#ifdef LCD_DELAY_CURSOR
delayMicroseconds(LCD_DELAY_CURSOR);
#endif
_lcd->write(slot);
}
#ifdef UI_DISPLAY_SETUP
void setBright(byte val) {
analogWrite(brightPin, 255 - val);
bright = val;
}
void setContrast(byte val) {
analogWrite(contrastPin, val);
contrast = val;
}
void saveConfig(void) {
saveLCDBright(bright);
saveLCDContrast(contrast);
}
byte getBright(void) {
return bright;
}
byte getContrast(void) {
return contrast;
}
#endif
private:
LiquidCrystal * _lcd;
#ifdef UI_DISPLAY_SETUP
byte brightPin, contrastPin;
byte bright, contrast;
#if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega1284__)
void saveLCDBright(byte val) { EEPROM.write(2048, val); }
void saveLCDContrast(byte val) { EEPROM.write(2049, val); }
byte loadLCDBright() { return EEPROM.read(2048); }
byte loadLCDContrast() { return EEPROM.read(2049); }
#else
//Fake It: 644P Only Supports 0-2047
void saveLCDBright(byte val) { }
void saveLCDContrast(byte val) { }
byte loadLCDBright() { }
byte loadLCDContrast() { }
#endif
#endif
};
//*****************************************************************************************************************************
// I2C LCD Class
//*****************************************************************************************************************************
class LCDI2C
{
public:
LCDI2C(byte addr) {
i2cLCDAddr = addr;
}
void init(){
delay(1000);
Wire.begin();
fastWrite = (i2cLcdGetVersion() > 968 ? 1 : 0);
}
void print(byte iRow, byte iCol, char sText[]){
byte pos = iRow * 20 + iCol;
memcpy((byte*)&screen[pos], sText, min(strlen(sText), 80-pos));
}
//Version of PrintLCD reading from PROGMEM
void print_P(byte iRow, byte iCol, const char *sText){
byte pos = iRow * 20 + iCol;
memcpy_P((byte*)&screen[pos], sText, min(strlen_P(sText), 80-pos));
}
void clear() {
memset(screen, ' ', 80);
i2cLcdClear();
}
void center(byte iRow, byte iCol, char sText[], byte fieldWidth){
byte sLen = strlen(sText);
byte textStart = (fieldWidth - sLen) / 2;
char s[21];
memset(s, ' ', fieldWidth);
memcpy(s + textStart, sText, sLen);
s[fieldWidth] = '\0';
print(iRow, iCol, s);
}
char lPad(byte iRow, byte iCol, char sText[], byte length, char pad) {
char s[21];
byte sLen = strlen(sText);
byte textStart = length - sLen;
memset(s, pad, textStart);
memcpy(s + textStart, sText, sLen);
s[length] = 0;
print(iRow, iCol, s);
}
char rPad(byte iRow, byte iCol, char sText[], byte length, char pad) {
char s[21];
byte sLen = strlen(sText);
memcpy(s, sText, sLen);
memset(s + sLen, pad, length - sLen);
s[length] = 0;
print(iRow, iCol, s);
}
void setCustChar_P(byte slot, const byte *charDef) {
i2cLcdSetCustChar_P(slot, charDef);
}
void writeCustChar(byte iRow, byte iCol, byte slot) {
screen[iRow * 20 + iCol] = slot;
}
void update() {
for (byte row = 0; row < 4; row++) {
if (fastWrite) i2cLcdSetCursor(0, row);
for (byte col = 0; col < 20; col++) {
if (fastWrite) i2cLcdWriteByte(screen[row * 20 + col]);
else i2cLcdWriteCustChar(col, row, screen[row * 20 + col]);
}
}
}
void setBright(byte val) {
i2cSetBright(val);
}
void setContrast(byte val) {
i2cSetContrast(val);
}
void saveConfig(void) {
i2cSaveConfig();
}
byte getBright(void) {
return i2cGetBright();
}
byte getContrast(void) {
return i2cGetContrast();
}
private:
byte screen[80];
uint8_t i2cLCDAddr;
boolean fastWrite;
uint8_t i2cLcdBegin(byte iCols, byte iRows) {
Wire.beginTransmission(i2cLCDAddr);
Wire.send(0x01);
Wire.send(iCols);
Wire.send(iRows);
uint8_t retValue = Wire.endTransmission();
#ifdef UI_LCD_I2CDELAYS
delay(5);
#endif
return retValue;
}
uint8_t i2cLcdClear() {
Wire.beginTransmission(i2cLCDAddr);
Wire.send(0x02);
uint8_t retValue = Wire.endTransmission();
#ifdef UI_LCD_I2CDELAYS
delay(3);
#endif
return retValue;
}
uint8_t i2cLcdSetCursor(byte iCol, byte iRow) {
Wire.beginTransmission(i2cLCDAddr);
Wire.send(0x03);
Wire.send(iCol);
Wire.send(iRow);
uint8_t retValue = Wire.endTransmission();
#ifdef UI_LCD_I2CDELAYS
delay(1);
#endif
return retValue;
}
uint8_t i2cLcdPrint(byte iCol, byte iRow, char s[]) {
Wire.beginTransmission(i2cLCDAddr);
Wire.send(0x04);
Wire.send(iCol);
Wire.send(iRow);
char *p = s;
while (*p) {
Wire.send(*p++);
}
uint8_t retValue = Wire.endTransmission();
#ifdef UI_LCD_I2CDELAYS
delay(3);
#endif
return retValue;
}
uint8_t i2cLcdWrite(byte iCol, byte iRow, byte len, char s[]) {
Wire.beginTransmission(i2cLCDAddr);
Wire.send(0x14);
Wire.send(iCol);
Wire.send(iRow);
Wire.send(len);
for (byte i = 0; i < len; i++) Wire.send(s[i]);
uint8_t retValue = Wire.endTransmission();
#ifdef UI_LCD_I2CDELAYS
delay(3);
#endif
return retValue;
}
uint8_t i2cLcdWriteByte(char s) {
Wire.beginTransmission(i2cLCDAddr);
Wire.send(0x15);
Wire.send(s);
uint8_t retValue = Wire.endTransmission();
#ifdef UI_LCD_I2CDELAYS
delay(1);
#endif
return retValue;
}
uint8_t i2cLcdSetCustChar_P(byte slot, const byte *charDef) {
Wire.beginTransmission(i2cLCDAddr);
Wire.send(0x05);
Wire.send(slot);
for (byte i = 0; i < 8; i++) {
Wire.send(pgm_read_byte(charDef++));
}
uint8_t retValue = Wire.endTransmission();
#ifdef UI_LCD_I2CDELAYS
delay(5);
#endif
return retValue;
}
uint8_t i2cLcdWriteCustChar(byte iCol, byte iRow, byte c) {
Wire.beginTransmission(i2cLCDAddr);
Wire.send(0x06);
Wire.send(iCol);
Wire.send(iRow);
Wire.send(c);
uint8_t retValue = Wire.endTransmission();
#ifdef UI_LCD_I2CDELAYS
delay(1);
#endif
return retValue;
}
uint8_t i2cSetBright(byte val) {
Wire.beginTransmission(i2cLCDAddr);
Wire.send(0x07);
Wire.send(val);
uint8_t retValue = Wire.endTransmission();
#ifdef UI_LCD_I2CDELAYS
delay(3);
#endif
return retValue;
}
uint8_t i2cSetContrast(byte val) {
Wire.beginTransmission(i2cLCDAddr);
Wire.send(0x08);
Wire.send(val);
uint8_t retValue = Wire.endTransmission();
#ifdef UI_LCD_I2CDELAYS
delay(3);
#endif
return retValue;
}
uint8_t i2cGetBright(void) {
Wire.beginTransmission(i2cLCDAddr);
Wire.send(0x09);
Wire.endTransmission();
#ifdef UI_LCD_I2CDELAYS
delay(10);
#endif
Wire.requestFrom(i2cLCDAddr, (uint8_t) 1);
while(Wire.available())
{
return Wire.receive();
}
}
uint8_t i2cGetContrast(void) {
Wire.beginTransmission(i2cLCDAddr);
Wire.send(0x0A);
Wire.endTransmission();
#ifdef UI_LCD_I2CDELAYS
delay(10);
#endif
Wire.requestFrom(i2cLCDAddr, (uint8_t) 1);
while(Wire.available())
{
return Wire.receive();
}
}
uint8_t i2cSaveConfig(void) {
Wire.beginTransmission(i2cLCDAddr);
Wire.send(0x0B);
uint8_t retValue = Wire.endTransmission();
#ifdef UI_LCD_I2CDELAYS
delay(10);
#endif
return retValue;
}
uint8_t i2cLoadConfig(void) {
Wire.beginTransmission(i2cLCDAddr);
Wire.send(0x0C);
uint8_t retValue = Wire.endTransmission();
#ifdef UI_LCD_I2CDELAYS
delay(10);
#endif
return retValue;
}
int i2cLcdGetVersion(void) {
//This command may not be implemented in which case bogus values are returned
//Executing the command twice after other differing requests will validate the result
int retValue[2];
for (byte pass = 0; pass < 2; pass++) {
if (pass) i2cGetBright();
else i2cGetContrast();
uint8_t * p = (uint8_t *) &retValue[pass];
Wire.beginTransmission(i2cLCDAddr);
Wire.send(0x16);
Wire.endTransmission();
#ifdef UI_LCD_I2CDELAYS
delay(10);
#endif
Wire.requestFrom(i2cLCDAddr, (uint8_t) 2);
while (Wire.available()) {
*(p++) = Wire.receive();
}
}
if (retValue[0] == retValue[1]) return retValue[0];
else return 0;
}
};
#endif