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# ifndef ULTRALCD_IMPLEMENTATION_HITACHI_HD44780_H
# define ULTRALCD_IMPLEMENTATION_HITACHI_HD44780_H
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/**
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* Implementation of the LCD display routines for a Hitachi HD44780 display . These are common LCD character displays .
* When selecting the Russian language , a slightly different LCD implementation is used to handle UTF8 characters .
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* */
# ifndef REPRAPWORLD_KEYPAD
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extern volatile uint8_t buttons ; //the last checked buttons in a bit array.
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# else
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extern volatile uint16_t buttons ; //an extended version of the last checked buttons in a bit array.
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# endif
////////////////////////////////////
// Setup button and encode mappings for each panel (into 'buttons' variable
//
// This is just to map common functions (across different panels) onto the same
// macro name. The mapping is independent of whether the button is directly connected or
// via a shift/i2c register.
# ifdef ULTIPANEL
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// All UltiPanels might have an encoder - so this is always be mapped onto first two bits
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# define BLEN_B 1
# define BLEN_A 0
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# define EN_B BIT(BLEN_B) // The two encoder pins are connected through BTN_EN1 and BTN_EN2
# define EN_A BIT(BLEN_A)
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# if defined(BTN_ENC) && BTN_ENC > -1
// encoder click is directly connected
# define BLEN_C 2
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# define EN_C BIT(BLEN_C)
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# endif
//
// Setup other button mappings of each panel
//
# if defined(LCD_I2C_VIKI)
# define B_I2C_BTN_OFFSET 3 // (the first three bit positions reserved for EN_A, EN_B, EN_C)
// button and encoder bit positions within 'buttons'
# define B_LE (BUTTON_LEFT<<B_I2C_BTN_OFFSET) // The remaining normalized buttons are all read via I2C
# define B_UP (BUTTON_UP<<B_I2C_BTN_OFFSET)
# define B_MI (BUTTON_SELECT<<B_I2C_BTN_OFFSET)
# define B_DW (BUTTON_DOWN<<B_I2C_BTN_OFFSET)
# define B_RI (BUTTON_RIGHT<<B_I2C_BTN_OFFSET)
# if defined(BTN_ENC) && BTN_ENC > -1
// the pause/stop/restart button is connected to BTN_ENC when used
# define B_ST (EN_C) // Map the pause/stop/resume button into its normalized functional name
# define LCD_CLICKED (buttons&(B_MI|B_RI|B_ST)) // pause/stop button also acts as click until we implement proper pause/stop.
# else
# define LCD_CLICKED (buttons&(B_MI|B_RI))
# endif
// I2C buttons take too long to read inside an interrupt context and so we read them during lcd_update
# define LCD_HAS_SLOW_BUTTONS
# elif defined(LCD_I2C_PANELOLU2)
// encoder click can be read through I2C if not directly connected
# if BTN_ENC <= 0
# define B_I2C_BTN_OFFSET 3 // (the first three bit positions reserved for EN_A, EN_B, EN_C)
# define B_MI (PANELOLU2_ENCODER_C<<B_I2C_BTN_OFFSET) // requires LiquidTWI2 library v1.2.3 or later
# define LCD_CLICKED (buttons&B_MI)
// I2C buttons take too long to read inside an interrupt context and so we read them during lcd_update
# define LCD_HAS_SLOW_BUTTONS
# else
# define LCD_CLICKED (buttons&EN_C)
# endif
# elif defined(REPRAPWORLD_KEYPAD)
// define register bit values, don't change it
# define BLEN_REPRAPWORLD_KEYPAD_F3 0
# define BLEN_REPRAPWORLD_KEYPAD_F2 1
# define BLEN_REPRAPWORLD_KEYPAD_F1 2
# define BLEN_REPRAPWORLD_KEYPAD_UP 3
# define BLEN_REPRAPWORLD_KEYPAD_RIGHT 4
# define BLEN_REPRAPWORLD_KEYPAD_MIDDLE 5
# define BLEN_REPRAPWORLD_KEYPAD_DOWN 6
# define BLEN_REPRAPWORLD_KEYPAD_LEFT 7
# define REPRAPWORLD_BTN_OFFSET 3 // bit offset into buttons for shift register values
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# define EN_REPRAPWORLD_KEYPAD_F3 BIT((BLEN_REPRAPWORLD_KEYPAD_F3+REPRAPWORLD_BTN_OFFSET))
# define EN_REPRAPWORLD_KEYPAD_F2 BIT((BLEN_REPRAPWORLD_KEYPAD_F2+REPRAPWORLD_BTN_OFFSET))
# define EN_REPRAPWORLD_KEYPAD_F1 BIT((BLEN_REPRAPWORLD_KEYPAD_F1+REPRAPWORLD_BTN_OFFSET))
# define EN_REPRAPWORLD_KEYPAD_UP BIT((BLEN_REPRAPWORLD_KEYPAD_UP+REPRAPWORLD_BTN_OFFSET))
# define EN_REPRAPWORLD_KEYPAD_RIGHT BIT((BLEN_REPRAPWORLD_KEYPAD_RIGHT+REPRAPWORLD_BTN_OFFSET))
# define EN_REPRAPWORLD_KEYPAD_MIDDLE BIT((BLEN_REPRAPWORLD_KEYPAD_MIDDLE+REPRAPWORLD_BTN_OFFSET))
# define EN_REPRAPWORLD_KEYPAD_DOWN BIT((BLEN_REPRAPWORLD_KEYPAD_DOWN+REPRAPWORLD_BTN_OFFSET))
# define EN_REPRAPWORLD_KEYPAD_LEFT BIT((BLEN_REPRAPWORLD_KEYPAD_LEFT+REPRAPWORLD_BTN_OFFSET))
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# define LCD_CLICKED ((buttons&EN_C) || (buttons&EN_REPRAPWORLD_KEYPAD_F1))
# define REPRAPWORLD_KEYPAD_MOVE_Y_DOWN (buttons&EN_REPRAPWORLD_KEYPAD_DOWN)
# define REPRAPWORLD_KEYPAD_MOVE_Y_UP (buttons&EN_REPRAPWORLD_KEYPAD_UP)
# define REPRAPWORLD_KEYPAD_MOVE_HOME (buttons&EN_REPRAPWORLD_KEYPAD_MIDDLE)
# elif defined(NEWPANEL)
# define LCD_CLICKED (buttons&EN_C)
# else // old style ULTIPANEL
//bits in the shift register that carry the buttons for:
// left up center down right red(stop)
# define BL_LE 7
# define BL_UP 6
# define BL_MI 5
# define BL_DW 4
# define BL_RI 3
# define BL_ST 2
//automatic, do not change
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# define B_LE BIT(BL_LE)
# define B_UP BIT(BL_UP)
# define B_MI BIT(BL_MI)
# define B_DW BIT(BL_DW)
# define B_RI BIT(BL_RI)
# define B_ST BIT(BL_ST)
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# define LCD_CLICKED (buttons&(B_MI|B_ST))
# endif
# endif //ULTIPANEL
////////////////////////////////////
// Create LCD class instance and chipset-specific information
# if defined(LCD_I2C_TYPE_PCF8575)
// note: these are register mapped pins on the PCF8575 controller not Arduino pins
# define LCD_I2C_PIN_BL 3
# define LCD_I2C_PIN_EN 2
# define LCD_I2C_PIN_RW 1
# define LCD_I2C_PIN_RS 0
# define LCD_I2C_PIN_D4 4
# define LCD_I2C_PIN_D5 5
# define LCD_I2C_PIN_D6 6
# define LCD_I2C_PIN_D7 7
# include <Wire.h>
# include <LCD.h>
# include <LiquidCrystal_I2C.h>
# define LCD_CLASS LiquidCrystal_I2C
LCD_CLASS lcd ( LCD_I2C_ADDRESS , LCD_I2C_PIN_EN , LCD_I2C_PIN_RW , LCD_I2C_PIN_RS , LCD_I2C_PIN_D4 , LCD_I2C_PIN_D5 , LCD_I2C_PIN_D6 , LCD_I2C_PIN_D7 ) ;
# elif defined(LCD_I2C_TYPE_MCP23017)
//for the LED indicators (which maybe mapped to different things in lcd_implementation_update_indicators())
# define LED_A 0x04 //100
# define LED_B 0x02 //010
# define LED_C 0x01 //001
# define LCD_HAS_STATUS_INDICATORS
# include <Wire.h>
# include <LiquidTWI2.h>
# define LCD_CLASS LiquidTWI2
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# if defined(DETECT_DEVICE)
LCD_CLASS lcd ( LCD_I2C_ADDRESS , 1 ) ;
# else
LCD_CLASS lcd ( LCD_I2C_ADDRESS ) ;
# endif
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# elif defined(LCD_I2C_TYPE_MCP23008)
# include <Wire.h>
# include <LiquidTWI2.h>
# define LCD_CLASS LiquidTWI2
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# if defined(DETECT_DEVICE)
LCD_CLASS lcd ( LCD_I2C_ADDRESS , 1 ) ;
# else
LCD_CLASS lcd ( LCD_I2C_ADDRESS ) ;
# endif
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# elif defined(LCD_I2C_TYPE_PCA8574)
# include <LiquidCrystal_I2C.h>
# define LCD_CLASS LiquidCrystal_I2C
LCD_CLASS lcd ( LCD_I2C_ADDRESS , LCD_WIDTH , LCD_HEIGHT ) ;
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// 2 wire Non-latching LCD SR from:
// https://bitbucket.org/fmalpartida/new-liquidcrystal/wiki/schematics#!shiftregister-connection
# elif defined(SR_LCD_2W_NL)
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extern " C " void __cxa_pure_virtual ( ) { while ( 1 ) ; }
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# include <LCD.h>
# include <LiquidCrystal_SR.h>
# define LCD_CLASS LiquidCrystal_SR
LCD_CLASS lcd ( SR_DATA_PIN , SR_CLK_PIN ) ;
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# else
// Standard directly connected LCD implementations
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# include <LiquidCrystal.h>
# define LCD_CLASS LiquidCrystal
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LCD_CLASS lcd ( LCD_PINS_RS , LCD_PINS_ENABLE , LCD_PINS_D4 , LCD_PINS_D5 , LCD_PINS_D6 , LCD_PINS_D7 ) ; //RS,Enable,D4,D5,D6,D7
# endif
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# include "utf_mapper.h"
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# ifdef LCD_PROGRESS_BAR
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static uint16_t progressBarTick = 0 ;
# if PROGRESS_MSG_EXPIRE > 0
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static uint16_t expireStatusMillis = 0 ;
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# endif
# define LCD_STR_PROGRESS "\x03\x04\x05"
# endif
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/* Custom characters defined in the first 8 characters of the LCD */
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# define LCD_STR_BEDTEMP "\x00" // this will have 'unexpected' results when used in a string!
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# define LCD_STR_DEGREE "\x01"
# define LCD_STR_THERMOMETER "\x02"
# define LCD_STR_UPLEVEL "\x03"
# define LCD_STR_REFRESH "\x04"
# define LCD_STR_FOLDER "\x05"
# define LCD_STR_FEEDRATE "\x06"
# define LCD_STR_CLOCK "\x07"
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//#define LCD_STR_ARROW_RIGHT "\x7E" /* from the default character set. Only available on DISPLAY_CHARSET_HD44780_JAPAN - at this place!*/
# define LCD_STR_ARROW_RIGHT ">" /* from the default character set */
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static void lcd_set_custom_characters (
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# ifdef LCD_PROGRESS_BAR
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bool progress_bar_set = true
# endif
) {
byte bedTemp [ 8 ] = {
B00000 ,
B11111 ,
B10101 ,
B10001 ,
B10101 ,
B11111 ,
B00000 ,
B00000
} ; //thanks Sonny Mounicou
byte degree [ 8 ] = {
B01100 ,
B10010 ,
B10010 ,
B01100 ,
B00000 ,
B00000 ,
B00000 ,
B00000
} ;
byte thermometer [ 8 ] = {
B00100 ,
B01010 ,
B01010 ,
B01010 ,
B01010 ,
B10001 ,
B10001 ,
B01110
} ;
byte uplevel [ 8 ] = {
B00100 ,
B01110 ,
B11111 ,
B00100 ,
B11100 ,
B00000 ,
B00000 ,
B00000
} ; //thanks joris
byte refresh [ 8 ] = {
B00000 ,
B00110 ,
B11001 ,
B11000 ,
B00011 ,
B10011 ,
B01100 ,
B00000 ,
} ; //thanks joris
byte folder [ 8 ] = {
B00000 ,
B11100 ,
B11111 ,
B10001 ,
B10001 ,
B11111 ,
B00000 ,
B00000
} ; //thanks joris
byte feedrate [ 8 ] = {
B11100 ,
B10000 ,
B11000 ,
B10111 ,
B00101 ,
B00110 ,
B00101 ,
B00000
} ; //thanks Sonny Mounicou
byte clock [ 8 ] = {
B00000 ,
B01110 ,
B10011 ,
B10101 ,
B10001 ,
B01110 ,
B00000 ,
B00000
} ; //thanks Sonny Mounicou
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# ifdef LCD_PROGRESS_BAR
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static bool char_mode = false ;
byte progress [ 3 ] [ 8 ] = { {
B00000 ,
B10000 ,
B10000 ,
B10000 ,
B10000 ,
B10000 ,
B10000 ,
B00000
} , {
B00000 ,
B10100 ,
B10100 ,
B10100 ,
B10100 ,
B10100 ,
B10100 ,
B00000
} , {
B00000 ,
B10101 ,
B10101 ,
B10101 ,
B10101 ,
B10101 ,
B10101 ,
B00000
} } ;
if ( progress_bar_set ! = char_mode ) {
char_mode = progress_bar_set ;
lcd . createChar ( LCD_STR_BEDTEMP [ 0 ] , bedTemp ) ;
lcd . createChar ( LCD_STR_DEGREE [ 0 ] , degree ) ;
lcd . createChar ( LCD_STR_THERMOMETER [ 0 ] , thermometer ) ;
lcd . createChar ( LCD_STR_FEEDRATE [ 0 ] , feedrate ) ;
lcd . createChar ( LCD_STR_CLOCK [ 0 ] , clock ) ;
if ( progress_bar_set ) {
// Progress bar characters for info screen
for ( int i = 3 ; i - - ; ) lcd . createChar ( LCD_STR_PROGRESS [ i ] , progress [ i ] ) ;
}
else {
// Custom characters for submenus
lcd . createChar ( LCD_STR_UPLEVEL [ 0 ] , uplevel ) ;
lcd . createChar ( LCD_STR_REFRESH [ 0 ] , refresh ) ;
lcd . createChar ( LCD_STR_FOLDER [ 0 ] , folder ) ;
}
}
# else
lcd . createChar ( LCD_STR_BEDTEMP [ 0 ] , bedTemp ) ;
lcd . createChar ( LCD_STR_DEGREE [ 0 ] , degree ) ;
lcd . createChar ( LCD_STR_THERMOMETER [ 0 ] , thermometer ) ;
lcd . createChar ( LCD_STR_UPLEVEL [ 0 ] , uplevel ) ;
lcd . createChar ( LCD_STR_REFRESH [ 0 ] , refresh ) ;
lcd . createChar ( LCD_STR_FOLDER [ 0 ] , folder ) ;
lcd . createChar ( LCD_STR_FEEDRATE [ 0 ] , feedrate ) ;
lcd . createChar ( LCD_STR_CLOCK [ 0 ] , clock ) ;
# endif
}
static void lcd_implementation_init (
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# ifdef LCD_PROGRESS_BAR
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bool progress_bar_set = true
# endif
) {
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# if defined(LCD_I2C_TYPE_PCF8575)
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lcd . begin ( LCD_WIDTH , LCD_HEIGHT ) ;
# ifdef LCD_I2C_PIN_BL
lcd . setBacklightPin ( LCD_I2C_PIN_BL , POSITIVE ) ;
lcd . setBacklight ( HIGH ) ;
# endif
# elif defined(LCD_I2C_TYPE_MCP23017)
lcd . setMCPType ( LTI_TYPE_MCP23017 ) ;
lcd . begin ( LCD_WIDTH , LCD_HEIGHT ) ;
lcd . setBacklight ( 0 ) ; //set all the LEDs off to begin with
# elif defined(LCD_I2C_TYPE_MCP23008)
lcd . setMCPType ( LTI_TYPE_MCP23008 ) ;
lcd . begin ( LCD_WIDTH , LCD_HEIGHT ) ;
# elif defined(LCD_I2C_TYPE_PCA8574)
lcd . init ( ) ;
lcd . backlight ( ) ;
# else
lcd . begin ( LCD_WIDTH , LCD_HEIGHT ) ;
# endif
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lcd_set_custom_characters (
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# ifdef LCD_PROGRESS_BAR
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progress_bar_set
# endif
) ;
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lcd . clear ( ) ;
}
static void lcd_implementation_clear ( )
{
lcd . clear ( ) ;
}
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/* Arduino < 1.0.0 is missing a function to print PROGMEM strings, so we need to implement our own */
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char lcd_printPGM ( const char * str ) {
char c ;
char n = 0 ;
while ( ( c = pgm_read_byte ( str + + ) ) ) {
n + = charset_mapper ( c ) ;
}
return n ;
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}
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char lcd_print ( char * str ) {
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char c , n = 0 ; ;
unsigned char i = 0 ;
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while ( ( c = str [ i + + ] ) ) {
n + = charset_mapper ( c ) ;
}
return n ;
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}
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unsigned lcd_print ( char c ) {
return charset_mapper ( c ) ;
}
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/*
Possible status screens :
16 x2 | 01234567 89012345 |
| 000 / 000 B000 / 000 |
| Status line . . . . . |
16 x4 | 01234567 89012345 |
| 000 / 000 B000 / 000 |
| SD100 % Z000 .0 |
| F100 % T - - : - - |
| Status line . . . . . |
20 x2 | 01234567 890123456789 |
| T000 / 000 D B000 / 000 D |
| Status line . . . . . . . . . |
20 x4 | 01234567 890123456789 |
| T000 / 000 D B000 / 000 D |
| X + 000.0 Y + 000.0 Z + 000.0 |
| F100 % SD100 % T - - : - - |
| Status line . . . . . . . . . |
20 x4 | 01234567 890123456789 |
| T000 / 000 D B000 / 000 D |
| T000 / 000 D Z000 .0 |
| F100 % SD100 % T - - : - - |
| Status line . . . . . . . . . |
*/
static void lcd_implementation_status_screen ( )
{
int tHotend = int ( degHotend ( 0 ) + 0.5 ) ;
int tTarget = int ( degTargetHotend ( 0 ) + 0.5 ) ;
# if LCD_WIDTH < 20
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( itostr3 ( tHotend ) ) ;
lcd . print ( ' / ' ) ;
lcd . print ( itostr3left ( tTarget ) ) ;
# if EXTRUDERS > 1 || TEMP_SENSOR_BED != 0
//If we have an 2nd extruder or heated bed, show that in the top right corner
lcd . setCursor ( 8 , 0 ) ;
# if EXTRUDERS > 1
tHotend = int ( degHotend ( 1 ) + 0.5 ) ;
tTarget = int ( degTargetHotend ( 1 ) + 0.5 ) ;
lcd . print ( LCD_STR_THERMOMETER [ 0 ] ) ;
# else //Heated bed
tHotend = int ( degBed ( ) + 0.5 ) ;
tTarget = int ( degTargetBed ( ) + 0.5 ) ;
lcd . print ( LCD_STR_BEDTEMP [ 0 ] ) ;
# endif
lcd . print ( itostr3 ( tHotend ) ) ;
lcd . print ( ' / ' ) ;
lcd . print ( itostr3left ( tTarget ) ) ;
# endif //EXTRUDERS > 1 || TEMP_SENSOR_BED != 0
# else //LCD_WIDTH > 19
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( LCD_STR_THERMOMETER [ 0 ] ) ;
lcd . print ( itostr3 ( tHotend ) ) ;
lcd . print ( ' / ' ) ;
lcd . print ( itostr3left ( tTarget ) ) ;
lcd_printPGM ( PSTR ( LCD_STR_DEGREE " " ) ) ;
if ( tTarget < 10 )
lcd . print ( ' ' ) ;
# if EXTRUDERS > 1 || TEMP_SENSOR_BED != 0
//If we have an 2nd extruder or heated bed, show that in the top right corner
lcd . setCursor ( 10 , 0 ) ;
# if EXTRUDERS > 1
tHotend = int ( degHotend ( 1 ) + 0.5 ) ;
tTarget = int ( degTargetHotend ( 1 ) + 0.5 ) ;
lcd . print ( LCD_STR_THERMOMETER [ 0 ] ) ;
# else //Heated bed
tHotend = int ( degBed ( ) + 0.5 ) ;
tTarget = int ( degTargetBed ( ) + 0.5 ) ;
lcd . print ( LCD_STR_BEDTEMP [ 0 ] ) ;
# endif
lcd . print ( itostr3 ( tHotend ) ) ;
lcd . print ( ' / ' ) ;
lcd . print ( itostr3left ( tTarget ) ) ;
lcd_printPGM ( PSTR ( LCD_STR_DEGREE " " ) ) ;
if ( tTarget < 10 )
lcd . print ( ' ' ) ;
# endif //EXTRUDERS > 1 || TEMP_SENSOR_BED != 0
# endif //LCD_WIDTH > 19
# if LCD_HEIGHT > 2
//Lines 2 for 4 line LCD
# if LCD_WIDTH < 20
# ifdef SDSUPPORT
lcd . setCursor ( 0 , 2 ) ;
lcd_printPGM ( PSTR ( " SD " ) ) ;
if ( IS_SD_PRINTING )
lcd . print ( itostr3 ( card . percentDone ( ) ) ) ;
else
lcd_printPGM ( PSTR ( " --- " ) ) ;
lcd . print ( ' % ' ) ;
# endif //SDSUPPORT
# else //LCD_WIDTH > 19
# if EXTRUDERS > 1 && TEMP_SENSOR_BED != 0
//If we both have a 2nd extruder and a heated bed, show the heated bed temp on the 2nd line on the left, as the first line is filled with extruder temps
tHotend = int ( degBed ( ) + 0.5 ) ;
tTarget = int ( degTargetBed ( ) + 0.5 ) ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( LCD_STR_BEDTEMP [ 0 ] ) ;
lcd . print ( itostr3 ( tHotend ) ) ;
lcd . print ( ' / ' ) ;
lcd . print ( itostr3left ( tTarget ) ) ;
lcd_printPGM ( PSTR ( LCD_STR_DEGREE " " ) ) ;
if ( tTarget < 10 )
lcd . print ( ' ' ) ;
# else
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( ' X ' ) ;
lcd . print ( ftostr3 ( current_position [ X_AXIS ] ) ) ;
lcd_printPGM ( PSTR ( " Y " ) ) ;
lcd . print ( ftostr3 ( current_position [ Y_AXIS ] ) ) ;
# endif //EXTRUDERS > 1 || TEMP_SENSOR_BED != 0
# endif //LCD_WIDTH > 19
lcd . setCursor ( LCD_WIDTH - 8 , 1 ) ;
lcd . print ( ' Z ' ) ;
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lcd . print ( ftostr32sp ( current_position [ Z_AXIS ] + 0.00001 ) ) ;
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# endif //LCD_HEIGHT > 2
# if LCD_HEIGHT > 3
lcd . setCursor ( 0 , 2 ) ;
lcd . print ( LCD_STR_FEEDRATE [ 0 ] ) ;
lcd . print ( itostr3 ( feedmultiply ) ) ;
lcd . print ( ' % ' ) ;
# if LCD_WIDTH > 19
# ifdef SDSUPPORT
lcd . setCursor ( 7 , 2 ) ;
lcd_printPGM ( PSTR ( " SD " ) ) ;
if ( IS_SD_PRINTING )
lcd . print ( itostr3 ( card . percentDone ( ) ) ) ;
else
lcd_printPGM ( PSTR ( " --- " ) ) ;
lcd . print ( ' % ' ) ;
# endif //SDSUPPORT
# endif //LCD_WIDTH > 19
lcd . setCursor ( LCD_WIDTH - 6 , 2 ) ;
lcd . print ( LCD_STR_CLOCK [ 0 ] ) ;
if ( starttime ! = 0 )
{
uint16_t time = millis ( ) / 60000 - starttime / 60000 ;
lcd . print ( itostr2 ( time / 60 ) ) ;
lcd . print ( ' : ' ) ;
lcd . print ( itostr2 ( time % 60 ) ) ;
} else {
lcd_printPGM ( PSTR ( " --:-- " ) ) ;
}
# endif
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// Status message line at the bottom
lcd . setCursor ( 0 , LCD_HEIGHT - 1 ) ;
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# ifdef LCD_PROGRESS_BAR
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if ( card . isFileOpen ( ) ) {
uint16_t mil = millis ( ) , diff = mil - progressBarTick ;
if ( diff > = PROGRESS_BAR_MSG_TIME | | ! lcd_status_message [ 0 ] ) {
// draw the progress bar
int tix = ( int ) ( card . percentDone ( ) * LCD_WIDTH * 3 ) / 100 ,
cel = tix / 3 , rem = tix % 3 , i = LCD_WIDTH ;
char msg [ LCD_WIDTH + 1 ] , b = ' ' ;
msg [ i ] = ' \0 ' ;
while ( i - - ) {
if ( i = = cel - 1 )
b = LCD_STR_PROGRESS [ 2 ] ;
else if ( i = = cel & & rem ! = 0 )
b = LCD_STR_PROGRESS [ rem - 1 ] ;
msg [ i ] = b ;
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}
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lcd . print ( msg ) ;
return ;
}
} //card.isFileOpen
# endif //LCD_PROGRESS_BAR
//Display both Status message line and Filament display on the last line
# ifdef FILAMENT_LCD_DISPLAY
if ( message_millis + 5000 < = millis ( ) ) { //display any status for the first 5 sec after screen is initiated
lcd_printPGM ( PSTR ( " Dia " ) ) ;
lcd . print ( ftostr12ns ( filament_width_meas ) ) ;
lcd_printPGM ( PSTR ( " V " ) ) ;
lcd . print ( itostr3 ( 100.0 * volumetric_multiplier [ FILAMENT_SENSOR_EXTRUDER_NUM ] ) ) ;
lcd . print ( ' % ' ) ;
return ;
}
# endif //FILAMENT_LCD_DISPLAY
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lcd_print ( lcd_status_message ) ;
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}
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static void lcd_implementation_drawmenu_generic ( bool sel , uint8_t row , const char * pstr , char pre_char , char post_char ) {
char c ;
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uint8_t n = LCD_WIDTH - 2 ;
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lcd . setCursor ( 0 , row ) ;
lcd . print ( sel ? pre_char : ' ' ) ;
while ( ( c = pgm_read_byte ( pstr ) ) & & n > 0 ) {
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n - = lcd_print ( c ) ;
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pstr + + ;
}
while ( n - - ) lcd . print ( ' ' ) ;
lcd . print ( post_char ) ;
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}
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static void lcd_implementation_drawmenu_setting_edit_generic ( bool sel , uint8_t row , const char * pstr , char pre_char , char * data ) {
char c ;
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uint8_t n = LCD_WIDTH - 2 - lcd_strlen ( data ) ;
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lcd . setCursor ( 0 , row ) ;
lcd . print ( sel ? pre_char : ' ' ) ;
while ( ( c = pgm_read_byte ( pstr ) ) & & n > 0 ) {
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n - = lcd_print ( c ) ;
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pstr + + ;
}
lcd . print ( ' : ' ) ;
while ( n - - ) lcd . print ( ' ' ) ;
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lcd_print ( data ) ;
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}
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static void lcd_implementation_drawmenu_setting_edit_generic_P ( bool sel , uint8_t row , const char * pstr , char pre_char , const char * data ) {
char c ;
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uint8_t n = LCD_WIDTH - 2 - lcd_strlen_P ( data ) ;
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lcd . setCursor ( 0 , row ) ;
lcd . print ( sel ? pre_char : ' ' ) ;
while ( ( c = pgm_read_byte ( pstr ) ) & & n > 0 ) {
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n - = lcd_print ( c ) ;
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pstr + + ;
}
lcd . print ( ' : ' ) ;
while ( n - - ) lcd . print ( ' ' ) ;
lcd_printPGM ( data ) ;
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}
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# define lcd_implementation_drawmenu_setting_edit_int3(sel, row, pstr, pstr2, data, minValue, maxValue) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', itostr3(*(data)))
# define lcd_implementation_drawmenu_setting_edit_float3(sel, row, pstr, pstr2, data, minValue, maxValue) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', ftostr3(*(data)))
# define lcd_implementation_drawmenu_setting_edit_float32(sel, row, pstr, pstr2, data, minValue, maxValue) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', ftostr32(*(data)))
# define lcd_implementation_drawmenu_setting_edit_float43(sel, row, pstr, pstr2, data, minValue, maxValue) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', ftostr43(*(data)))
# define lcd_implementation_drawmenu_setting_edit_float5(sel, row, pstr, pstr2, data, minValue, maxValue) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', ftostr5(*(data)))
# define lcd_implementation_drawmenu_setting_edit_float52(sel, row, pstr, pstr2, data, minValue, maxValue) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', ftostr52(*(data)))
# define lcd_implementation_drawmenu_setting_edit_float51(sel, row, pstr, pstr2, data, minValue, maxValue) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', ftostr51(*(data)))
# define lcd_implementation_drawmenu_setting_edit_long5(sel, row, pstr, pstr2, data, minValue, maxValue) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', ftostr5(*(data)))
# define lcd_implementation_drawmenu_setting_edit_bool(sel, row, pstr, pstr2, data) lcd_implementation_drawmenu_setting_edit_generic_P(sel, row, pstr, '>', (*(data))?PSTR(MSG_ON):PSTR(MSG_OFF))
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//Add version for callback functions
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# define lcd_implementation_drawmenu_setting_edit_callback_int3(sel, row, pstr, pstr2, data, minValue, maxValue, callback) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', itostr3(*(data)))
# define lcd_implementation_drawmenu_setting_edit_callback_float3(sel, row, pstr, pstr2, data, minValue, maxValue, callback) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', ftostr3(*(data)))
# define lcd_implementation_drawmenu_setting_edit_callback_float32(sel, row, pstr, pstr2, data, minValue, maxValue, callback) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', ftostr32(*(data)))
# define lcd_implementation_drawmenu_setting_edit_callback_float43(sel, row, pstr, pstr2, data, minValue, maxValue, callback) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', ftostr43(*(data)))
# define lcd_implementation_drawmenu_setting_edit_callback_float5(sel, row, pstr, pstr2, data, minValue, maxValue, callback) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', ftostr5(*(data)))
# define lcd_implementation_drawmenu_setting_edit_callback_float52(sel, row, pstr, pstr2, data, minValue, maxValue, callback) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', ftostr52(*(data)))
# define lcd_implementation_drawmenu_setting_edit_callback_float51(sel, row, pstr, pstr2, data, minValue, maxValue, callback) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', ftostr51(*(data)))
# define lcd_implementation_drawmenu_setting_edit_callback_long5(sel, row, pstr, pstr2, data, minValue, maxValue, callback) lcd_implementation_drawmenu_setting_edit_generic(sel, row, pstr, '>', ftostr5(*(data)))
# define lcd_implementation_drawmenu_setting_edit_callback_bool(sel, row, pstr, pstr2, data, callback) lcd_implementation_drawmenu_setting_edit_generic_P(sel, row, pstr, '>', (*(data))?PSTR(MSG_ON):PSTR(MSG_OFF))
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void lcd_implementation_drawedit ( const char * pstr , char * value ) {
lcd . setCursor ( 1 , 1 ) ;
lcd_printPGM ( pstr ) ;
lcd . print ( ' : ' ) ;
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lcd . setCursor ( LCD_WIDTH - lcd_strlen ( value ) , 1 ) ;
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lcd_print ( value ) ;
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}
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static void lcd_implementation_drawmenu_sd ( bool sel , uint8_t row , const char * pstr , const char * filename , char * longFilename , uint8_t concat , char post_char ) {
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char c ;
uint8_t n = LCD_WIDTH - concat ;
lcd . setCursor ( 0 , row ) ;
lcd . print ( sel ? ' > ' : ' ' ) ;
if ( longFilename [ 0 ] ) {
filename = longFilename ;
longFilename [ n ] = ' \0 ' ;
}
while ( ( c = * filename ) & & n > 0 ) {
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n - = lcd_print ( c ) ;
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filename + + ;
}
while ( n - - ) lcd . print ( ' ' ) ;
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lcd . print ( post_char ) ;
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}
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static void lcd_implementation_drawmenu_sdfile ( bool sel , uint8_t row , const char * pstr , const char * filename , char * longFilename ) {
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lcd_implementation_drawmenu_sd ( sel , row , pstr , filename , longFilename , 2 , ' ' ) ;
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}
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static void lcd_implementation_drawmenu_sddirectory ( bool sel , uint8_t row , const char * pstr , const char * filename , char * longFilename ) {
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lcd_implementation_drawmenu_sd ( sel , row , pstr , filename , longFilename , 2 , LCD_STR_FOLDER [ 0 ] ) ;
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}
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# define lcd_implementation_drawmenu_back(sel, row, pstr, data) lcd_implementation_drawmenu_generic(sel, row, pstr, LCD_STR_UPLEVEL[0], LCD_STR_UPLEVEL[0])
# define lcd_implementation_drawmenu_submenu(sel, row, pstr, data) lcd_implementation_drawmenu_generic(sel, row, pstr, '>', LCD_STR_ARROW_RIGHT[0])
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# define lcd_implementation_drawmenu_gcode(sel, row, pstr, gcode) lcd_implementation_drawmenu_generic(sel, row, pstr, '>', ' ')
# define lcd_implementation_drawmenu_function(sel, row, pstr, data) lcd_implementation_drawmenu_generic(sel, row, pstr, '>', ' ')
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# ifdef LCD_HAS_STATUS_INDICATORS
static void lcd_implementation_update_indicators ( )
{
# if defined(LCD_I2C_PANELOLU2) || defined(LCD_I2C_VIKI)
//set the LEDS - referred to as backlights by the LiquidTWI2 library
static uint8_t ledsprev = 0 ;
uint8_t leds = 0 ;
if ( target_temperature_bed > 0 ) leds | = LED_A ;
if ( target_temperature [ 0 ] > 0 ) leds | = LED_B ;
if ( fanSpeed ) leds | = LED_C ;
# if EXTRUDERS > 1
if ( target_temperature [ 1 ] > 0 ) leds | = LED_C ;
# endif
if ( leds ! = ledsprev ) {
lcd . setBacklight ( leds ) ;
ledsprev = leds ;
}
# endif
}
# endif
# ifdef LCD_HAS_SLOW_BUTTONS
extern uint32_t blocking_enc ;
static uint8_t lcd_implementation_read_slow_buttons ( )
{
# ifdef LCD_I2C_TYPE_MCP23017
uint8_t slow_buttons ;
// Reading these buttons this is likely to be too slow to call inside interrupt context
// so they are called during normal lcd_update
slow_buttons = lcd . readButtons ( ) < < B_I2C_BTN_OFFSET ;
# if defined(LCD_I2C_VIKI)
if ( slow_buttons & ( B_MI | B_RI ) ) { //LCD clicked
if ( blocking_enc > millis ( ) ) {
slow_buttons & = ~ ( B_MI | B_RI ) ; // Disable LCD clicked buttons if screen is updated
}
}
# endif
return slow_buttons ;
# endif
}
# endif
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# endif //__ULTRALCD_IMPLEMENTATION_HITACHI_HD44780_H