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# include "temperature.h"
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# include "ultralcd.h"
# ifdef ULTRA_LCD
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# include "Marlin.h"
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# include "language.h"
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# include "cardreader.h"
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# include "temperature.h"
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# include "stepper.h"
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# include "ConfigurationStore.h"
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int8_t encoderDiff ; /* encoderDiff is updated from interrupt context and added to encoderPosition every LCD update */
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bool encoderRateMultiplierEnabled ;
int32_t lastEncoderMovementMillis ;
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/* Configuration settings */
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int plaPreheatHotendTemp ;
int plaPreheatHPBTemp ;
int plaPreheatFanSpeed ;
int absPreheatHotendTemp ;
int absPreheatHPBTemp ;
int absPreheatFanSpeed ;
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# ifdef FILAMENT_LCD_DISPLAY
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unsigned long message_millis = 0 ;
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# endif
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# ifdef ULTIPANEL
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static float manual_feedrate [ ] = MANUAL_FEEDRATE ;
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# endif // ULTIPANEL
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/* !Configuration settings */
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//Function pointer to menu functions.
typedef void ( * menuFunc_t ) ( ) ;
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uint8_t lcd_status_message_level ;
char lcd_status_message [ LCD_WIDTH + 1 ] = WELCOME_MSG ;
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# ifdef DOGLCD
# include "dogm_lcd_implementation.h"
# else
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# include "ultralcd_implementation_hitachi_HD44780.h"
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# endif
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/** forward declarations **/
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
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void copy_and_scalePID_i ( ) ;
void copy_and_scalePID_d ( ) ;
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/* Different menus */
static void lcd_status_screen ( ) ;
# ifdef ULTIPANEL
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extern bool powersupply ;
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static void lcd_main_menu ( ) ;
static void lcd_tune_menu ( ) ;
static void lcd_prepare_menu ( ) ;
static void lcd_move_menu ( ) ;
static void lcd_control_menu ( ) ;
static void lcd_control_temperature_menu ( ) ;
static void lcd_control_temperature_preheat_pla_settings_menu ( ) ;
static void lcd_control_temperature_preheat_abs_settings_menu ( ) ;
static void lcd_control_motion_menu ( ) ;
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static void lcd_control_volumetric_menu ( ) ;
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# ifdef DOGLCD
static void lcd_set_contrast ( ) ;
# endif
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static void lcd_control_retract_menu ( ) ;
static void lcd_sdcard_menu ( ) ;
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# ifdef DELTA_CALIBRATION_MENU
static void lcd_delta_calibrate_menu ( ) ;
# endif // DELTA_CALIBRATION_MENU
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static void lcd_quick_feedback ( ) ; //Cause an LCD refresh, and give the user visual or audible feedback that something has happened
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/* Different types of actions that can be used in menu items. */
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static void menu_action_back ( menuFunc_t data ) ;
static void menu_action_submenu ( menuFunc_t data ) ;
static void menu_action_gcode ( const char * pgcode ) ;
static void menu_action_function ( menuFunc_t data ) ;
static void menu_action_sdfile ( const char * filename , char * longFilename ) ;
static void menu_action_sddirectory ( const char * filename , char * longFilename ) ;
static void menu_action_setting_edit_bool ( const char * pstr , bool * ptr ) ;
static void menu_action_setting_edit_int3 ( const char * pstr , int * ptr , int minValue , int maxValue ) ;
static void menu_action_setting_edit_float3 ( const char * pstr , float * ptr , float minValue , float maxValue ) ;
static void menu_action_setting_edit_float32 ( const char * pstr , float * ptr , float minValue , float maxValue ) ;
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static void menu_action_setting_edit_float43 ( const char * pstr , float * ptr , float minValue , float maxValue ) ;
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static void menu_action_setting_edit_float5 ( const char * pstr , float * ptr , float minValue , float maxValue ) ;
static void menu_action_setting_edit_float51 ( const char * pstr , float * ptr , float minValue , float maxValue ) ;
static void menu_action_setting_edit_float52 ( const char * pstr , float * ptr , float minValue , float maxValue ) ;
static void menu_action_setting_edit_long5 ( const char * pstr , unsigned long * ptr , unsigned long minValue , unsigned long maxValue ) ;
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
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static void menu_action_setting_edit_callback_bool ( const char * pstr , bool * ptr , menuFunc_t callbackFunc ) ;
static void menu_action_setting_edit_callback_int3 ( const char * pstr , int * ptr , int minValue , int maxValue , menuFunc_t callbackFunc ) ;
static void menu_action_setting_edit_callback_float3 ( const char * pstr , float * ptr , float minValue , float maxValue , menuFunc_t callbackFunc ) ;
static void menu_action_setting_edit_callback_float32 ( const char * pstr , float * ptr , float minValue , float maxValue , menuFunc_t callbackFunc ) ;
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static void menu_action_setting_edit_callback_float43 ( const char * pstr , float * ptr , float minValue , float maxValue , menuFunc_t callbackFunc ) ;
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
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static void menu_action_setting_edit_callback_float5 ( const char * pstr , float * ptr , float minValue , float maxValue , menuFunc_t callbackFunc ) ;
static void menu_action_setting_edit_callback_float51 ( const char * pstr , float * ptr , float minValue , float maxValue , menuFunc_t callbackFunc ) ;
static void menu_action_setting_edit_callback_float52 ( const char * pstr , float * ptr , float minValue , float maxValue , menuFunc_t callbackFunc ) ;
static void menu_action_setting_edit_callback_long5 ( const char * pstr , unsigned long * ptr , unsigned long minValue , unsigned long maxValue , menuFunc_t callbackFunc ) ;
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# define ENCODER_FEEDRATE_DEADZONE 10
# if !defined(LCD_I2C_VIKI)
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# ifndef ENCODER_STEPS_PER_MENU_ITEM
# define ENCODER_STEPS_PER_MENU_ITEM 5
# endif
# ifndef ENCODER_PULSES_PER_STEP
# define ENCODER_PULSES_PER_STEP 1
# endif
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# else
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# ifndef ENCODER_STEPS_PER_MENU_ITEM
# define ENCODER_STEPS_PER_MENU_ITEM 2 // VIKI LCD rotary encoder uses a different number of steps per rotation
# endif
# ifndef ENCODER_PULSES_PER_STEP
# define ENCODER_PULSES_PER_STEP 1
# endif
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# endif
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/* Helper macros for menus */
# define START_MENU() do { \
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encoderRateMultiplierEnabled = false ; \
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if ( encoderPosition > 0x8000 ) encoderPosition = 0 ; \
if ( encoderPosition / ENCODER_STEPS_PER_MENU_ITEM < currentMenuViewOffset ) currentMenuViewOffset = encoderPosition / ENCODER_STEPS_PER_MENU_ITEM ; \
uint8_t _lineNr = currentMenuViewOffset , _menuItemNr ; \
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bool wasClicked = LCD_CLICKED ; \
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for ( uint8_t _drawLineNr = 0 ; _drawLineNr < LCD_HEIGHT ; _drawLineNr + + , _lineNr + + ) { \
_menuItemNr = 0 ;
# define MENU_ITEM(type, label, args...) do { \
if ( _menuItemNr = = _lineNr ) { \
if ( lcdDrawUpdate ) { \
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const char * _label_pstr = PSTR ( label ) ; \
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if ( ( encoderPosition / ENCODER_STEPS_PER_MENU_ITEM ) = = _menuItemNr ) { \
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lcd_implementation_drawmenu_ # # type # # _selected ( _drawLineNr , _label_pstr , # # args ) ; \
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} else { \
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lcd_implementation_drawmenu_ # # type ( _drawLineNr , _label_pstr , # # args ) ; \
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} \
} \
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if ( wasClicked & & ( encoderPosition / ENCODER_STEPS_PER_MENU_ITEM ) = = _menuItemNr ) { \
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lcd_quick_feedback ( ) ; \
menu_action_ # # type ( args ) ; \
return ; \
} \
} \
_menuItemNr + + ; \
} while ( 0 )
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# ifdef ENCODER_RATE_MULTIPLIER
# define MENU_MULTIPLIER_ITEM(type, label, args...) do { \
if ( _menuItemNr = = _lineNr ) { \
if ( lcdDrawUpdate ) { \
const char * _label_pstr = PSTR ( label ) ; \
if ( ( encoderPosition / ENCODER_STEPS_PER_MENU_ITEM ) = = _menuItemNr ) { \
lcd_implementation_drawmenu_ # # type # # _selected ( _drawLineNr , _label_pstr , # # args ) ; \
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} else { \
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lcd_implementation_drawmenu_ # # type ( _drawLineNr , _label_pstr , # # args ) ; \
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} \
} \
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if ( wasClicked & & ( encoderPosition / ENCODER_STEPS_PER_MENU_ITEM ) = = _menuItemNr ) { \
lcd_quick_feedback ( ) ; \
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encoderRateMultiplierEnabled = true ; \
lastEncoderMovementMillis = 0 ; \
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menu_action_ # # type ( args ) ; \
return ; \
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} \
} \
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_menuItemNr + + ; \
} while ( 0 )
# endif
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# define MENU_ITEM_DUMMY() do { _menuItemNr++; } while(0)
# define MENU_ITEM_EDIT(type, label, args...) MENU_ITEM(setting_edit_ ## type, label, PSTR(label) , ## args )
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
2013-03-19 10:05:11 -04:00
# define MENU_ITEM_EDIT_CALLBACK(type, label, args...) MENU_ITEM(setting_edit_callback_ ## type, label, PSTR(label) , ## args )
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# ifdef ENCODER_RATE_MULTIPLIER
# define MENU_MULTIPLIER_ITEM_EDIT(type, label, args...) MENU_MULTIPLIER_ITEM(setting_edit_ ## type, label, PSTR(label) , ## args )
# define MENU_MULTIPLIER_ITEM_EDIT_CALLBACK(type, label, args...) MENU_MULTIPLIER_ITEM(setting_edit_callback_ ## type, label, PSTR(label) , ## args )
# else
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# define MENU_MULTIPLIER_ITEM_EDIT(type, label, args...) MENU_ITEM(setting_edit_ ## type, label, PSTR(label) , ## args )
# define MENU_MULTIPLIER_ITEM_EDIT_CALLBACK(type, label, args...) MENU_ITEM(setting_edit_callback_ ## type, label, PSTR(label) , ## args )
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# endif
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# define END_MENU() \
if ( encoderPosition / ENCODER_STEPS_PER_MENU_ITEM > = _menuItemNr ) encoderPosition = _menuItemNr * ENCODER_STEPS_PER_MENU_ITEM - 1 ; \
if ( ( uint8_t ) ( encoderPosition / ENCODER_STEPS_PER_MENU_ITEM ) > = currentMenuViewOffset + LCD_HEIGHT ) { currentMenuViewOffset = ( encoderPosition / ENCODER_STEPS_PER_MENU_ITEM ) - LCD_HEIGHT + 1 ; lcdDrawUpdate = 1 ; _lineNr = currentMenuViewOffset - 1 ; _drawLineNr = - 1 ; } \
} } while ( 0 )
/** Used variables to keep track of the menu */
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# ifndef REPRAPWORLD_KEYPAD
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volatile uint8_t buttons ; //Contains the bits of the currently pressed buttons.
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# else
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volatile uint8_t buttons_reprapworld_keypad ; // to store the reprapworld_keypad shift register values
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# endif
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# ifdef LCD_HAS_SLOW_BUTTONS
volatile uint8_t slow_buttons ; //Contains the bits of the currently pressed buttons.
# endif
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uint8_t currentMenuViewOffset ; /* scroll offset in the current menu */
uint32_t blocking_enc ;
uint8_t lastEncoderBits ;
uint32_t encoderPosition ;
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# if (SDCARDDETECT > 0)
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bool lcd_oldcardstatus ;
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# endif
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# endif //ULTIPANEL
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menuFunc_t currentMenu = lcd_status_screen ; /* function pointer to the currently active menu */
uint32_t lcd_next_update_millis ;
uint8_t lcd_status_update_delay ;
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bool ignore_click = false ;
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bool wait_for_unclick ;
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uint8_t lcdDrawUpdate = 2 ; /* Set to none-zero when the LCD needs to draw, decreased after every draw. Set to 2 in LCD routines so the LCD gets at least 1 full redraw (first redraw is partial) */
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//prevMenu and prevEncoderPosition are used to store the previous menu location when editing settings.
menuFunc_t prevMenu = NULL ;
uint16_t prevEncoderPosition ;
//Variables used when editing values.
const char * editLabel ;
void * editValue ;
int32_t minEditValue , maxEditValue ;
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
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menuFunc_t callbackFunc ;
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// place-holders for Ki and Kd edits, and the extruder # being edited
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
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float raw_Ki , raw_Kd ;
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int pid_current_extruder ;
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static void lcd_goto_menu ( menuFunc_t menu , const uint32_t encoder = 0 , const bool feedback = true ) {
if ( currentMenu ! = menu ) {
currentMenu = menu ;
encoderPosition = encoder ;
if ( feedback ) lcd_quick_feedback ( ) ;
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// For LCD_PROGRESS_BAR re-initialize the custom characters
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# if defined(LCD_PROGRESS_BAR) && defined(SDSUPPORT) && !defined(DOGLCD)
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lcd_set_custom_characters ( menu = = lcd_status_screen ) ;
# endif
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}
}
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/* Main status screen. It's up to the implementation specific part to show what is needed. As this is very display dependent */
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static void lcd_status_screen ( )
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{
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encoderRateMultiplierEnabled = false ;
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# if defined(LCD_PROGRESS_BAR) && defined(SDSUPPORT) && !defined(DOGLCD)
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uint16_t mil = millis ( ) ;
# ifndef PROGRESS_MSG_ONCE
if ( mil > progressBarTick + PROGRESS_BAR_MSG_TIME + PROGRESS_BAR_BAR_TIME ) {
progressBarTick = mil ;
}
# endif
# if PROGRESS_MSG_EXPIRE > 0
// keep the message alive if paused, count down otherwise
if ( messageTick > 0 ) {
if ( card . isFileOpen ( ) ) {
if ( IS_SD_PRINTING ) {
if ( ( mil - messageTick ) > = PROGRESS_MSG_EXPIRE ) {
lcd_status_message [ 0 ] = ' \0 ' ;
messageTick = 0 ;
}
}
else {
messageTick + = LCD_UPDATE_INTERVAL ;
}
}
else {
messageTick = 0 ;
}
}
# endif
# endif //LCD_PROGRESS_BAR
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if ( lcd_status_update_delay )
lcd_status_update_delay - - ;
else
lcdDrawUpdate = 1 ;
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if ( lcdDrawUpdate ) {
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lcd_implementation_status_screen ( ) ;
lcd_status_update_delay = 10 ; /* redraw the main screen every second. This is easier then trying keep track of all things that change on the screen */
}
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# ifdef ULTIPANEL
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bool current_click = LCD_CLICKED ;
if ( ignore_click ) {
if ( wait_for_unclick ) {
if ( ! current_click ) {
ignore_click = wait_for_unclick = false ;
}
else {
current_click = false ;
}
}
else if ( current_click ) {
lcd_quick_feedback ( ) ;
wait_for_unclick = true ;
current_click = false ;
}
}
if ( current_click )
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{
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lcd_goto_menu ( lcd_main_menu ) ;
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lcd_implementation_init ( // to maybe revive the LCD if static electricity killed it.
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# if defined(LCD_PROGRESS_BAR) && defined(SDSUPPORT) && !defined(DOGLCD)
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currentMenu = = lcd_status_screen
# endif
) ;
# ifdef FILAMENT_LCD_DISPLAY
message_millis = millis ( ) ; // get status message to show up for a while
# endif
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}
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# ifdef ULTIPANEL_FEEDMULTIPLY
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// Dead zone at 100% feedrate
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if ( ( feedmultiply < 100 & & ( feedmultiply + int ( encoderPosition ) ) > 100 ) | |
( feedmultiply > 100 & & ( feedmultiply + int ( encoderPosition ) ) < 100 ) )
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{
encoderPosition = 0 ;
feedmultiply = 100 ;
}
if ( feedmultiply = = 100 & & int ( encoderPosition ) > ENCODER_FEEDRATE_DEADZONE )
{
feedmultiply + = int ( encoderPosition ) - ENCODER_FEEDRATE_DEADZONE ;
encoderPosition = 0 ;
}
else if ( feedmultiply = = 100 & & int ( encoderPosition ) < - ENCODER_FEEDRATE_DEADZONE )
{
feedmultiply + = int ( encoderPosition ) + ENCODER_FEEDRATE_DEADZONE ;
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encoderPosition = 0 ;
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}
else if ( feedmultiply ! = 100 )
{
feedmultiply + = int ( encoderPosition ) ;
encoderPosition = 0 ;
}
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# endif //ULTIPANEL_FEEDMULTIPLY
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if ( feedmultiply < 10 )
feedmultiply = 10 ;
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else if ( feedmultiply > 999 )
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feedmultiply = 999 ;
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# endif //ULTIPANEL
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}
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# ifdef ULTIPANEL
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static void lcd_return_to_status ( ) { lcd_goto_menu ( lcd_status_screen , 0 , false ) ; }
static void lcd_sdcard_pause ( ) { card . pauseSDPrint ( ) ; }
static void lcd_sdcard_resume ( ) { card . startFileprint ( ) ; }
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static void lcd_sdcard_stop ( )
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{
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card . sdprinting = false ;
card . closefile ( ) ;
quickStop ( ) ;
if ( SD_FINISHED_STEPPERRELEASE )
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{
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enquecommands_P ( PSTR ( SD_FINISHED_RELEASECOMMAND ) ) ;
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}
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autotempShutdown ( ) ;
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cancel_heatup = true ;
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lcd_setstatus ( MSG_PRINT_ABORTED ) ;
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}
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/* Menu implementation */
static void lcd_main_menu ( )
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{
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START_MENU ( ) ;
MENU_ITEM ( back , MSG_WATCH , lcd_status_screen ) ;
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if ( movesplanned ( ) | | IS_SD_PRINTING )
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{
MENU_ITEM ( submenu , MSG_TUNE , lcd_tune_menu ) ;
} else {
MENU_ITEM ( submenu , MSG_PREPARE , lcd_prepare_menu ) ;
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# ifdef DELTA_CALIBRATION_MENU
MENU_ITEM ( submenu , MSG_DELTA_CALIBRATE , lcd_delta_calibrate_menu ) ;
# endif // DELTA_CALIBRATION_MENU
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}
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/*JFR TEST*/ MENU_ITEM ( gcode , " test multiline " , PSTR ( " G4 S3 \n M104 S50 \n G4 S1 \n M104 S200 \n G4 S2 \n M104 S0 " ) ) ; // SD-card changed by user
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MENU_ITEM ( submenu , MSG_CONTROL , lcd_control_menu ) ;
# ifdef SDSUPPORT
if ( card . cardOK )
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{
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if ( card . isFileOpen ( ) )
{
if ( card . sdprinting )
MENU_ITEM ( function , MSG_PAUSE_PRINT , lcd_sdcard_pause ) ;
else
MENU_ITEM ( function , MSG_RESUME_PRINT , lcd_sdcard_resume ) ;
MENU_ITEM ( function , MSG_STOP_PRINT , lcd_sdcard_stop ) ;
} else {
MENU_ITEM ( submenu , MSG_CARD_MENU , lcd_sdcard_menu ) ;
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# if SDCARDDETECT < 1
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MENU_ITEM ( gcode , MSG_CNG_SDCARD , PSTR ( " M21 " ) ) ; // SD-card changed by user
# endif
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}
} else {
MENU_ITEM ( submenu , MSG_NO_CARD , lcd_sdcard_menu ) ;
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# if SDCARDDETECT < 1
MENU_ITEM ( gcode , MSG_INIT_SDCARD , PSTR ( " M21 " ) ) ; // Manually initialize the SD-card via user interface
# endif
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}
# endif
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END_MENU ( ) ;
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}
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# ifdef SDSUPPORT
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static void lcd_autostart_sd ( )
{
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card . autostart_index = 0 ;
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card . setroot ( ) ;
card . checkautostart ( true ) ;
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}
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# endif
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void lcd_set_home_offsets ( )
{
for ( int8_t i = 0 ; i < NUM_AXIS ; i + + ) {
if ( i ! = E_AXIS ) {
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add_homing [ i ] - = current_position [ i ] ;
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current_position [ i ] = 0.0 ;
}
}
plan_set_position ( 0.0 , 0.0 , 0.0 , current_position [ E_AXIS ] ) ;
// Audio feedback
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enquecommands_P ( PSTR ( " M300 S659 P200 \n M300 S698 P200 " ) ) ;
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lcd_return_to_status ( ) ;
}
Add the socalled "Babystepping" feature.
It is a realtime control over the head position via the LCD menu system that works _while_ printing.
Using it, one can e.g. tune the z-position in realtime, while printing the first layer.
Also, lost steps can be manually added/removed, but thats not the prime feature.
Stuff is placed into the Tune->Babystep *
It is not possible to have realtime control via gcode sending due to the buffering, so I did not include a gcode yet. However, it could be added, but it movements will not be realtime then.
Historically, a very similar thing was implemented for the "Kaamermaker" project, while Joris was babysitting his offspring, hence the name.
say goodby to fuddling around with the z-axis.
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# ifdef BABYSTEPPING
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static void _lcd_babystep ( int axis , const char * msg ) {
if ( encoderPosition ! = 0 ) {
babystepsTodo [ axis ] + = ( int ) encoderPosition ;
encoderPosition = 0 ;
lcdDrawUpdate = 1 ;
Add the socalled "Babystepping" feature.
It is a realtime control over the head position via the LCD menu system that works _while_ printing.
Using it, one can e.g. tune the z-position in realtime, while printing the first layer.
Also, lost steps can be manually added/removed, but thats not the prime feature.
Stuff is placed into the Tune->Babystep *
It is not possible to have realtime control via gcode sending due to the buffering, so I did not include a gcode yet. However, it could be added, but it movements will not be realtime then.
Historically, a very similar thing was implemented for the "Kaamermaker" project, while Joris was babysitting his offspring, hence the name.
say goodby to fuddling around with the z-axis.
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}
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if ( lcdDrawUpdate ) lcd_implementation_drawedit ( msg , " " ) ;
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if ( LCD_CLICKED ) lcd_goto_menu ( lcd_tune_menu ) ;
}
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static void lcd_babystep_x ( ) { _lcd_babystep ( X_AXIS , PSTR ( MSG_BABYSTEPPING_X ) ) ; }
static void lcd_babystep_y ( ) { _lcd_babystep ( Y_AXIS , PSTR ( MSG_BABYSTEPPING_Y ) ) ; }
static void lcd_babystep_z ( ) { _lcd_babystep ( Z_AXIS , PSTR ( MSG_BABYSTEPPING_Z ) ) ; }
Add the socalled "Babystepping" feature.
It is a realtime control over the head position via the LCD menu system that works _while_ printing.
Using it, one can e.g. tune the z-position in realtime, while printing the first layer.
Also, lost steps can be manually added/removed, but thats not the prime feature.
Stuff is placed into the Tune->Babystep *
It is not possible to have realtime control via gcode sending due to the buffering, so I did not include a gcode yet. However, it could be added, but it movements will not be realtime then.
Historically, a very similar thing was implemented for the "Kaamermaker" project, while Joris was babysitting his offspring, hence the name.
say goodby to fuddling around with the z-axis.
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# endif //BABYSTEPPING
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static void lcd_tune_menu ( )
{
START_MENU ( ) ;
MENU_ITEM ( back , MSG_MAIN , lcd_main_menu ) ;
MENU_ITEM_EDIT ( int3 , MSG_SPEED , & feedmultiply , 10 , 999 ) ;
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# if TEMP_SENSOR_0 != 0
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MENU_MULTIPLIER_ITEM_EDIT ( int3 , MSG_NOZZLE , & target_temperature [ 0 ] , 0 , HEATER_0_MAXTEMP - 15 ) ;
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# endif
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# if TEMP_SENSOR_1 != 0
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MENU_MULTIPLIER_ITEM_EDIT ( int3 , MSG_NOZZLE " 2 " , & target_temperature [ 1 ] , 0 , HEATER_1_MAXTEMP - 15 ) ;
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# endif
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# if TEMP_SENSOR_2 != 0
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MENU_MULTIPLIER_ITEM_EDIT ( int3 , MSG_NOZZLE " 3 " , & target_temperature [ 2 ] , 0 , HEATER_2_MAXTEMP - 15 ) ;
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# endif
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# if TEMP_SENSOR_3 != 0
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MENU_MULTIPLIER_ITEM_EDIT ( int3 , MSG_NOZZLE " 4 " , & target_temperature [ 3 ] , 0 , HEATER_3_MAXTEMP - 15 ) ;
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# endif
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# if TEMP_SENSOR_BED != 0
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MENU_MULTIPLIER_ITEM_EDIT ( int3 , MSG_BED , & target_temperature_bed , 0 , BED_MAXTEMP - 15 ) ;
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# endif
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MENU_MULTIPLIER_ITEM_EDIT ( int3 , MSG_FAN_SPEED , & fanSpeed , 0 , 255 ) ;
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MENU_ITEM_EDIT ( int3 , MSG_FLOW , & extrudemultiply , 10 , 999 ) ;
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MENU_ITEM_EDIT ( int3 , MSG_FLOW " 0 " , & extruder_multiply [ 0 ] , 10 , 999 ) ;
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# if TEMP_SENSOR_1 != 0
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MENU_ITEM_EDIT ( int3 , MSG_FLOW " 1 " , & extruder_multiply [ 1 ] , 10 , 999 ) ;
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# endif
# if TEMP_SENSOR_2 != 0
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MENU_ITEM_EDIT ( int3 , MSG_FLOW " 2 " , & extruder_multiply [ 2 ] , 10 , 999 ) ;
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# endif
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# if TEMP_SENSOR_3 != 0
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MENU_ITEM_EDIT ( int3 , MSG_FLOW " 3 " , & extruder_multiply [ 3 ] , 10 , 999 ) ;
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# endif
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Add the socalled "Babystepping" feature.
It is a realtime control over the head position via the LCD menu system that works _while_ printing.
Using it, one can e.g. tune the z-position in realtime, while printing the first layer.
Also, lost steps can be manually added/removed, but thats not the prime feature.
Stuff is placed into the Tune->Babystep *
It is not possible to have realtime control via gcode sending due to the buffering, so I did not include a gcode yet. However, it could be added, but it movements will not be realtime then.
Historically, a very similar thing was implemented for the "Kaamermaker" project, while Joris was babysitting his offspring, hence the name.
say goodby to fuddling around with the z-axis.
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# ifdef BABYSTEPPING
# ifdef BABYSTEP_XY
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MENU_ITEM ( submenu , MSG_BABYSTEP_X , lcd_babystep_x ) ;
MENU_ITEM ( submenu , MSG_BABYSTEP_Y , lcd_babystep_y ) ;
Add the socalled "Babystepping" feature.
It is a realtime control over the head position via the LCD menu system that works _while_ printing.
Using it, one can e.g. tune the z-position in realtime, while printing the first layer.
Also, lost steps can be manually added/removed, but thats not the prime feature.
Stuff is placed into the Tune->Babystep *
It is not possible to have realtime control via gcode sending due to the buffering, so I did not include a gcode yet. However, it could be added, but it movements will not be realtime then.
Historically, a very similar thing was implemented for the "Kaamermaker" project, while Joris was babysitting his offspring, hence the name.
say goodby to fuddling around with the z-axis.
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# endif //BABYSTEP_XY
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MENU_ITEM ( submenu , MSG_BABYSTEP_Z , lcd_babystep_z ) ;
Add the socalled "Babystepping" feature.
It is a realtime control over the head position via the LCD menu system that works _while_ printing.
Using it, one can e.g. tune the z-position in realtime, while printing the first layer.
Also, lost steps can be manually added/removed, but thats not the prime feature.
Stuff is placed into the Tune->Babystep *
It is not possible to have realtime control via gcode sending due to the buffering, so I did not include a gcode yet. However, it could be added, but it movements will not be realtime then.
Historically, a very similar thing was implemented for the "Kaamermaker" project, while Joris was babysitting his offspring, hence the name.
say goodby to fuddling around with the z-axis.
2013-10-06 15:14:51 -04:00
# endif
Added a feature to have filament change by gcode or display trigger.
[default off for now]
syntax: M600 X[pos] Y[pos] Z[relative lift] E[initial retract] L[later retract distance for removal]
if enabled, after a M600, the printer will retract by E, lift by Z, move to XY, retract even more filament.
Oh, and it will display "remove filament" and beep like crazy.
You are then supposed to insert a new filament (other color, e.g.) and click the display to continue.
After having the nozzle cleaned manually, aided by the disabled e-steppers.
After clicking, the printer will then go back the whole shebang, and continue printing with a fancy new color.
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# ifdef FILAMENTCHANGEENABLE
MENU_ITEM ( gcode , MSG_FILAMENTCHANGE , PSTR ( " M600 " ) ) ;
# endif
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END_MENU ( ) ;
}
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void lcd_preheat_pla0 ( )
{
setTargetHotend0 ( plaPreheatHotendTemp ) ;
setTargetBed ( plaPreheatHPBTemp ) ;
fanSpeed = plaPreheatFanSpeed ;
lcd_return_to_status ( ) ;
setWatch ( ) ; // heater sanity check timer
}
void lcd_preheat_abs0 ( )
{
setTargetHotend0 ( absPreheatHotendTemp ) ;
setTargetBed ( absPreheatHPBTemp ) ;
fanSpeed = absPreheatFanSpeed ;
lcd_return_to_status ( ) ;
setWatch ( ) ; // heater sanity check timer
}
# if TEMP_SENSOR_1 != 0 //2nd extruder preheat
void lcd_preheat_pla1 ( )
{
setTargetHotend1 ( plaPreheatHotendTemp ) ;
setTargetBed ( plaPreheatHPBTemp ) ;
fanSpeed = plaPreheatFanSpeed ;
lcd_return_to_status ( ) ;
setWatch ( ) ; // heater sanity check timer
}
void lcd_preheat_abs1 ( )
{
setTargetHotend1 ( absPreheatHotendTemp ) ;
setTargetBed ( absPreheatHPBTemp ) ;
fanSpeed = absPreheatFanSpeed ;
lcd_return_to_status ( ) ;
setWatch ( ) ; // heater sanity check timer
}
# endif //2nd extruder preheat
# if TEMP_SENSOR_2 != 0 //3 extruder preheat
void lcd_preheat_pla2 ( )
{
setTargetHotend2 ( plaPreheatHotendTemp ) ;
setTargetBed ( plaPreheatHPBTemp ) ;
fanSpeed = plaPreheatFanSpeed ;
lcd_return_to_status ( ) ;
setWatch ( ) ; // heater sanity check timer
}
void lcd_preheat_abs2 ( )
{
setTargetHotend2 ( absPreheatHotendTemp ) ;
setTargetBed ( absPreheatHPBTemp ) ;
fanSpeed = absPreheatFanSpeed ;
lcd_return_to_status ( ) ;
setWatch ( ) ; // heater sanity check timer
}
# endif //3 extruder preheat
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# if TEMP_SENSOR_3 != 0 //4 extruder preheat
void lcd_preheat_pla3 ( )
{
setTargetHotend3 ( plaPreheatHotendTemp ) ;
setTargetBed ( plaPreheatHPBTemp ) ;
fanSpeed = plaPreheatFanSpeed ;
lcd_return_to_status ( ) ;
setWatch ( ) ; // heater sanity check timer
}
void lcd_preheat_abs3 ( )
{
setTargetHotend3 ( absPreheatHotendTemp ) ;
setTargetBed ( absPreheatHPBTemp ) ;
fanSpeed = absPreheatFanSpeed ;
lcd_return_to_status ( ) ;
setWatch ( ) ; // heater sanity check timer
}
# endif //4 extruder preheat
# if TEMP_SENSOR_1 != 0 || TEMP_SENSOR_2 != 0 || TEMP_SENSOR_3 != 0 //more than one extruder present
void lcd_preheat_pla0123 ( )
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{
setTargetHotend0 ( plaPreheatHotendTemp ) ;
setTargetHotend1 ( plaPreheatHotendTemp ) ;
setTargetHotend2 ( plaPreheatHotendTemp ) ;
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setTargetHotend3 ( plaPreheatHotendTemp ) ;
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setTargetBed ( plaPreheatHPBTemp ) ;
fanSpeed = plaPreheatFanSpeed ;
lcd_return_to_status ( ) ;
setWatch ( ) ; // heater sanity check timer
}
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void lcd_preheat_abs0123 ( )
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{
setTargetHotend0 ( absPreheatHotendTemp ) ;
setTargetHotend1 ( absPreheatHotendTemp ) ;
setTargetHotend2 ( absPreheatHotendTemp ) ;
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setTargetHotend3 ( absPreheatHotendTemp ) ;
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setTargetBed ( absPreheatHPBTemp ) ;
fanSpeed = absPreheatFanSpeed ;
lcd_return_to_status ( ) ;
setWatch ( ) ; // heater sanity check timer
}
# endif //more than one extruder present
void lcd_preheat_pla_bedonly ( )
{
setTargetBed ( plaPreheatHPBTemp ) ;
fanSpeed = plaPreheatFanSpeed ;
lcd_return_to_status ( ) ;
setWatch ( ) ; // heater sanity check timer
}
void lcd_preheat_abs_bedonly ( )
{
setTargetBed ( absPreheatHPBTemp ) ;
fanSpeed = absPreheatFanSpeed ;
lcd_return_to_status ( ) ;
setWatch ( ) ; // heater sanity check timer
}
static void lcd_preheat_pla_menu ( )
{
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START_MENU ( ) ;
MENU_ITEM ( back , MSG_PREPARE , lcd_prepare_menu ) ;
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MENU_ITEM ( function , MSG_PREHEAT_PLA_N " 1 " , lcd_preheat_pla0 ) ;
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# if TEMP_SENSOR_1 != 0 //2 extruder preheat
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MENU_ITEM ( function , MSG_PREHEAT_PLA_N " 2 " , lcd_preheat_pla1 ) ;
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# endif //2 extruder preheat
# if TEMP_SENSOR_2 != 0 //3 extruder preheat
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MENU_ITEM ( function , MSG_PREHEAT_PLA_N " 3 " , lcd_preheat_pla2 ) ;
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# endif //3 extruder preheat
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# if TEMP_SENSOR_3 != 0 //4 extruder preheat
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MENU_ITEM ( function , MSG_PREHEAT_PLA_N " 4 " , lcd_preheat_pla3 ) ;
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# endif //4 extruder preheat
# if TEMP_SENSOR_1 != 0 || TEMP_SENSOR_2 != 0 || TEMP_SENSOR_3 != 0 //all extruder preheat
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MENU_ITEM ( function , MSG_PREHEAT_PLA_ALL , lcd_preheat_pla0123 ) ;
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# endif //all extruder preheat
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# if TEMP_SENSOR_BED != 0
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MENU_ITEM ( function , MSG_PREHEAT_PLA_BEDONLY , lcd_preheat_pla_bedonly ) ;
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# endif
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END_MENU ( ) ;
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}
static void lcd_preheat_abs_menu ( )
{
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START_MENU ( ) ;
MENU_ITEM ( back , MSG_PREPARE , lcd_prepare_menu ) ;
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MENU_ITEM ( function , MSG_PREHEAT_ABS_N " 1 " , lcd_preheat_abs0 ) ;
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# if TEMP_SENSOR_1 != 0 //2 extruder preheat
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MENU_ITEM ( function , MSG_PREHEAT_ABS_N " 2 " , lcd_preheat_abs1 ) ;
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# endif //2 extruder preheat
# if TEMP_SENSOR_2 != 0 //3 extruder preheat
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MENU_ITEM ( function , MSG_PREHEAT_ABS_N " 3 " , lcd_preheat_abs2 ) ;
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# endif //3 extruder preheat
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# if TEMP_SENSOR_3 != 0 //4 extruder preheat
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MENU_ITEM ( function , MSG_PREHEAT_ABS_N " 4 " , lcd_preheat_abs3 ) ;
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# endif //4 extruder preheat
# if TEMP_SENSOR_1 != 0 || TEMP_SENSOR_2 != 0 || TEMP_SENSOR_3 != 0 //all extruder preheat
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MENU_ITEM ( function , MSG_PREHEAT_ABS_ALL , lcd_preheat_abs0123 ) ;
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# endif //all extruder preheat
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# if TEMP_SENSOR_BED != 0
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MENU_ITEM ( function , MSG_PREHEAT_ABS_BEDONLY , lcd_preheat_abs_bedonly ) ;
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# endif
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END_MENU ( ) ;
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}
void lcd_cooldown ( )
{
setTargetHotend0 ( 0 ) ;
setTargetHotend1 ( 0 ) ;
setTargetHotend2 ( 0 ) ;
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setTargetHotend3 ( 0 ) ;
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setTargetBed ( 0 ) ;
fanSpeed = 0 ;
lcd_return_to_status ( ) ;
}
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static void lcd_prepare_menu ( )
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{
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START_MENU ( ) ;
MENU_ITEM ( back , MSG_MAIN , lcd_main_menu ) ;
# ifdef SDSUPPORT
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# ifdef MENU_ADDAUTOSTART
MENU_ITEM ( function , MSG_AUTOSTART , lcd_autostart_sd ) ;
# endif
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# endif
MENU_ITEM ( gcode , MSG_DISABLE_STEPPERS , PSTR ( " M84 " ) ) ;
MENU_ITEM ( gcode , MSG_AUTO_HOME , PSTR ( " G28 " ) ) ;
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MENU_ITEM ( function , MSG_SET_HOME_OFFSETS , lcd_set_home_offsets ) ;
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//MENU_ITEM(gcode, MSG_SET_ORIGIN, PSTR("G92 X0 Y0 Z0"));
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# if TEMP_SENSOR_0 != 0
# if TEMP_SENSOR_1 != 0 || TEMP_SENSOR_2 != 0 || TEMP_SENSOR_BED != 0
MENU_ITEM ( submenu , MSG_PREHEAT_PLA , lcd_preheat_pla_menu ) ;
MENU_ITEM ( submenu , MSG_PREHEAT_ABS , lcd_preheat_abs_menu ) ;
# else
MENU_ITEM ( function , MSG_PREHEAT_PLA , lcd_preheat_pla0 ) ;
MENU_ITEM ( function , MSG_PREHEAT_ABS , lcd_preheat_abs0 ) ;
# endif
# endif
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MENU_ITEM ( function , MSG_COOLDOWN , lcd_cooldown ) ;
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# if PS_ON_PIN > -1
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if ( powersupply )
{
MENU_ITEM ( gcode , MSG_SWITCH_PS_OFF , PSTR ( " M81 " ) ) ;
} else {
MENU_ITEM ( gcode , MSG_SWITCH_PS_ON , PSTR ( " M80 " ) ) ;
}
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# endif
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MENU_ITEM ( submenu , MSG_MOVE_AXIS , lcd_move_menu ) ;
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// JFR for RMud delta printer
MENU_ITEM ( gcode , " Calibrate bed " , PSTR ( " M702 \n G28 \n G1 X-77.94 Y-45 Z36 F8000 \n G4 S3 \n M701 P0 \n G1 X77.94 Y-45 Z36 \n G4 S3 \n M701 P1 \n G1 X0 Y90 Z36 \n G4 S3 \n M701 P2 \n M700 \n G1 X0 Y0 Z100 F8000 " ) ) ;
MENU_ITEM ( gcode , " Check level " , PSTR ( " G28 \n G1 X0 Y0 Z1 F4000 \n G1 X-77.94 Y-45 Z1 \n G1 X77.94 Y-45 \n G1 X0 Y90 \n G1 X-77.94 Y-45 \n G4 S2 \n G1 X-77.94 Y-45 Z0.3 F2000 \n G1 X-77.94 Y-45 \n G1 X77.94 Y-45 \n G1 X0 Y90 \n G1 X-77.94 Y-45 \n G1 X0 Y0 Z0 " ) ) ;
MENU_ITEM ( gcode , " Retract filament " , PSTR ( " M302 \n M82 \n G92 E0 \n G1 F4000 E-800 " ) ) ;
MENU_ITEM ( gcode , " Insert filament " , PSTR ( " M302 \n M82 \n G92 E0 \n G1 F4000 E60 " ) ) ;
MENU_ITEM ( gcode , " Finalize filament " , PSTR ( " G1 F4000 E790 " ) ) ;
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END_MENU ( ) ;
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}
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# ifdef DELTA_CALIBRATION_MENU
static void lcd_delta_calibrate_menu ( )
{
START_MENU ( ) ;
MENU_ITEM ( back , MSG_MAIN , lcd_main_menu ) ;
MENU_ITEM ( gcode , MSG_AUTO_HOME , PSTR ( " G28 " ) ) ;
MENU_ITEM ( gcode , MSG_DELTA_CALIBRATE_X , PSTR ( " G0 F8000 X-77.94 Y-45 Z0 " ) ) ;
MENU_ITEM ( gcode , MSG_DELTA_CALIBRATE_Y , PSTR ( " G0 F8000 X77.94 Y-45 Z0 " ) ) ;
MENU_ITEM ( gcode , MSG_DELTA_CALIBRATE_Z , PSTR ( " G0 F8000 X0 Y90 Z0 " ) ) ;
MENU_ITEM ( gcode , MSG_DELTA_CALIBRATE_CENTER , PSTR ( " G0 F8000 X0 Y0 Z0 " ) ) ;
END_MENU ( ) ;
}
# endif // DELTA_CALIBRATION_MENU
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float move_menu_scale ;
static void lcd_move_menu_axis ( ) ;
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static void _lcd_move ( const char * name , int axis , int min , int max ) {
if ( encoderPosition ! = 0 ) {
refresh_cmd_timeout ( ) ;
current_position [ axis ] + = float ( ( int ) encoderPosition ) * move_menu_scale ;
if ( min_software_endstops & & current_position [ axis ] < min ) current_position [ axis ] = min ;
if ( max_software_endstops & & current_position [ axis ] > max ) current_position [ axis ] = max ;
encoderPosition = 0 ;
# ifdef DELTA
calculate_delta ( current_position ) ;
plan_buffer_line ( delta [ X_AXIS ] , delta [ Y_AXIS ] , delta [ Z_AXIS ] , current_position [ E_AXIS ] , manual_feedrate [ axis ] / 60 , active_extruder ) ;
# else
plan_buffer_line ( current_position [ X_AXIS ] , current_position [ Y_AXIS ] , current_position [ Z_AXIS ] , current_position [ E_AXIS ] , manual_feedrate [ axis ] / 60 , active_extruder ) ;
# endif
lcdDrawUpdate = 1 ;
}
if ( lcdDrawUpdate ) lcd_implementation_drawedit ( name , ftostr31 ( current_position [ axis ] ) ) ;
if ( LCD_CLICKED ) lcd_goto_menu ( lcd_move_menu_axis ) ;
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}
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static void lcd_move_x ( ) { _lcd_move ( PSTR ( " X " ) , X_AXIS , X_MIN_POS , X_MAX_POS ) ; }
static void lcd_move_y ( ) { _lcd_move ( PSTR ( " Y " ) , Y_AXIS , Y_MIN_POS , Y_MAX_POS ) ; }
static void lcd_move_z ( ) { _lcd_move ( PSTR ( " Z " ) , Z_AXIS , Z_MIN_POS , Z_MAX_POS ) ; }
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static void lcd_move_e ( )
{
if ( encoderPosition ! = 0 )
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{
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current_position [ E_AXIS ] + = float ( ( int ) encoderPosition ) * move_menu_scale ;
encoderPosition = 0 ;
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# ifdef DELTA
calculate_delta ( current_position ) ;
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plan_buffer_line ( delta [ X_AXIS ] , delta [ Y_AXIS ] , delta [ Z_AXIS ] , current_position [ E_AXIS ] , manual_feedrate [ E_AXIS ] / 60 , active_extruder ) ;
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# else
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plan_buffer_line ( current_position [ X_AXIS ] , current_position [ Y_AXIS ] , current_position [ Z_AXIS ] , current_position [ E_AXIS ] , manual_feedrate [ E_AXIS ] / 60 , active_extruder ) ;
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# endif
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lcdDrawUpdate = 1 ;
}
if ( lcdDrawUpdate )
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{
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lcd_implementation_drawedit ( PSTR ( " Extruder " ) , ftostr31 ( current_position [ E_AXIS ] ) ) ;
}
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if ( LCD_CLICKED ) lcd_goto_menu ( lcd_move_menu_axis ) ;
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}
static void lcd_move_menu_axis ( )
{
START_MENU ( ) ;
MENU_ITEM ( back , MSG_MOVE_AXIS , lcd_move_menu ) ;
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MENU_ITEM ( submenu , MSG_MOVE_X , lcd_move_x ) ;
MENU_ITEM ( submenu , MSG_MOVE_Y , lcd_move_y ) ;
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if ( move_menu_scale < 10.0 )
{
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MENU_ITEM ( submenu , MSG_MOVE_Z , lcd_move_z ) ;
MENU_ITEM ( submenu , MSG_MOVE_E , lcd_move_e ) ;
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}
END_MENU ( ) ;
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}
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static void lcd_move_menu_10mm ( )
{
move_menu_scale = 10.0 ;
lcd_move_menu_axis ( ) ;
}
static void lcd_move_menu_1mm ( )
{
move_menu_scale = 1.0 ;
lcd_move_menu_axis ( ) ;
}
static void lcd_move_menu_01mm ( )
{
move_menu_scale = 0.1 ;
lcd_move_menu_axis ( ) ;
}
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static void lcd_move_menu ( )
{
START_MENU ( ) ;
MENU_ITEM ( back , MSG_PREPARE , lcd_prepare_menu ) ;
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MENU_ITEM ( submenu , MSG_MOVE_10MM , lcd_move_menu_10mm ) ;
MENU_ITEM ( submenu , MSG_MOVE_1MM , lcd_move_menu_1mm ) ;
MENU_ITEM ( submenu , MSG_MOVE_01MM , lcd_move_menu_01mm ) ;
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//TODO:X,Y,Z,E
END_MENU ( ) ;
}
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static void lcd_control_menu ( )
{
START_MENU ( ) ;
MENU_ITEM ( back , MSG_MAIN , lcd_main_menu ) ;
MENU_ITEM ( submenu , MSG_TEMPERATURE , lcd_control_temperature_menu ) ;
MENU_ITEM ( submenu , MSG_MOTION , lcd_control_motion_menu ) ;
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MENU_ITEM ( submenu , MSG_VOLUMETRIC , lcd_control_volumetric_menu ) ;
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# ifdef DOGLCD
// MENU_ITEM_EDIT(int3, MSG_CONTRAST, &lcd_contrast, 0, 63);
MENU_ITEM ( submenu , MSG_CONTRAST , lcd_set_contrast ) ;
# endif
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# ifdef FWRETRACT
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MENU_ITEM ( submenu , MSG_RETRACT , lcd_control_retract_menu ) ;
# endif
# ifdef EEPROM_SETTINGS
MENU_ITEM ( function , MSG_STORE_EPROM , Config_StoreSettings ) ;
MENU_ITEM ( function , MSG_LOAD_EPROM , Config_RetrieveSettings ) ;
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# endif
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MENU_ITEM ( function , MSG_RESTORE_FAILSAFE , Config_ResetDefault ) ;
END_MENU ( ) ;
}
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static void lcd_control_temperature_menu ( )
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{
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START_MENU ( ) ;
MENU_ITEM ( back , MSG_CONTROL , lcd_control_menu ) ;
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# if TEMP_SENSOR_0 != 0
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MENU_MULTIPLIER_ITEM_EDIT ( int3 , MSG_NOZZLE , & target_temperature [ 0 ] , 0 , HEATER_0_MAXTEMP - 15 ) ;
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# endif
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# if TEMP_SENSOR_1 != 0 && EXTRUDERS > 1
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MENU_MULTIPLIER_ITEM_EDIT ( int3 , MSG_NOZZLE " 2 " , & target_temperature [ 1 ] , 0 , HEATER_1_MAXTEMP - 15 ) ;
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# endif
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# if TEMP_SENSOR_2 != 0 && EXTRUDERS > 2
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MENU_MULTIPLIER_ITEM_EDIT ( int3 , MSG_NOZZLE " 3 " , & target_temperature [ 2 ] , 0 , HEATER_2_MAXTEMP - 15 ) ;
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# endif
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# if TEMP_SENSOR_3 != 0 && EXTRUDERS > 3
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MENU_MULTIPLIER_ITEM_EDIT ( int3 , MSG_NOZZLE " 4 " , & target_temperature [ 3 ] , 0 , HEATER_3_MAXTEMP - 15 ) ;
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# endif
# if TEMP_SENSOR_BED != 0
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MENU_MULTIPLIER_ITEM_EDIT ( int3 , MSG_BED , & target_temperature_bed , 0 , BED_MAXTEMP - 15 ) ;
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# endif
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MENU_MULTIPLIER_ITEM_EDIT ( int3 , MSG_FAN_SPEED , & fanSpeed , 0 , 255 ) ;
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# if defined AUTOTEMP && (TEMP_SENSOR_0 != 0)
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MENU_ITEM_EDIT ( bool , MSG_AUTOTEMP , & autotemp_enabled ) ;
MENU_ITEM_EDIT ( float3 , MSG_MIN , & autotemp_min , 0 , HEATER_0_MAXTEMP - 15 ) ;
MENU_ITEM_EDIT ( float3 , MSG_MAX , & autotemp_max , 0 , HEATER_0_MAXTEMP - 15 ) ;
MENU_ITEM_EDIT ( float32 , MSG_FACTOR , & autotemp_factor , 0.0 , 1.0 ) ;
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# endif
# ifdef PIDTEMP
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// set up temp variables - undo the default scaling
pid_current_extruder = 0 ;
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raw_Ki = unscalePID_i ( PID_PARAM ( Ki , 0 ) ) ;
raw_Kd = unscalePID_d ( PID_PARAM ( Kd , 0 ) ) ;
MENU_ITEM_EDIT ( float52 , MSG_PID_P , & PID_PARAM ( Kp , 0 ) , 1 , 9990 ) ;
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// i is typically a small value so allows values below 1
MENU_ITEM_EDIT_CALLBACK ( float52 , MSG_PID_I , & raw_Ki , 0.01 , 9990 , copy_and_scalePID_i ) ;
MENU_ITEM_EDIT_CALLBACK ( float52 , MSG_PID_D , & raw_Kd , 1 , 9990 , copy_and_scalePID_d ) ;
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# ifdef PID_ADD_EXTRUSION_RATE
MENU_ITEM_EDIT ( float3 , MSG_PID_C , & PID_PARAM ( Kc , 0 ) , 1 , 9990 ) ;
# endif //PID_ADD_EXTRUSION_RATE
# ifdef PID_PARAMS_PER_EXTRUDER
# if EXTRUDERS > 1
// set up temp variables - undo the default scaling
pid_current_extruder = 0 ;
raw_Ki = unscalePID_i ( PID_PARAM ( Ki , 1 ) ) ;
raw_Kd = unscalePID_d ( PID_PARAM ( Kd , 1 ) ) ;
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MENU_ITEM_EDIT ( float52 , MSG_PID_P " E2 " , & PID_PARAM ( Kp , 1 ) , 1 , 9990 ) ;
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// i is typically a small value so allows values below 1
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MENU_ITEM_EDIT_CALLBACK ( float52 , MSG_PID_I " E2 " , & raw_Ki , 0.01 , 9990 , copy_and_scalePID_i ) ;
MENU_ITEM_EDIT_CALLBACK ( float52 , MSG_PID_D " E2 " , & raw_Kd , 1 , 9990 , copy_and_scalePID_d ) ;
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# ifdef PID_ADD_EXTRUSION_RATE
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MENU_ITEM_EDIT ( float3 , MSG_PID_C " E2 " , & PID_PARAM ( Kc , 1 ) , 1 , 9990 ) ;
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# endif //PID_ADD_EXTRUSION_RATE
# endif //EXTRUDERS > 1
# if EXTRUDERS > 2
// set up temp variables - undo the default scaling
pid_current_extruder = 0 ;
raw_Ki = unscalePID_i ( PID_PARAM ( Ki , 2 ) ) ;
raw_Kd = unscalePID_d ( PID_PARAM ( Kd , 2 ) ) ;
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MENU_ITEM_EDIT ( float52 , MSG_PID_P " E3 " , & PID_PARAM ( Kp , 2 ) , 1 , 9990 ) ;
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// i is typically a small value so allows values below 1
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MENU_ITEM_EDIT_CALLBACK ( float52 , MSG_PID_I " E3 " , & raw_Ki , 0.01 , 9990 , copy_and_scalePID_i ) ;
MENU_ITEM_EDIT_CALLBACK ( float52 , MSG_PID_D " E3 " , & raw_Kd , 1 , 9990 , copy_and_scalePID_d ) ;
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# ifdef PID_ADD_EXTRUSION_RATE
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MENU_ITEM_EDIT ( float3 , MSG_PID_C " E3 " , & PID_PARAM ( Kc , 2 ) , 1 , 9990 ) ;
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# endif //PID_ADD_EXTRUSION_RATE
# endif //EXTRUDERS > 2
# endif // PID_PARAMS_PER_EXTRUDER
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# endif //PIDTEMP
MENU_ITEM ( submenu , MSG_PREHEAT_PLA_SETTINGS , lcd_control_temperature_preheat_pla_settings_menu ) ;
MENU_ITEM ( submenu , MSG_PREHEAT_ABS_SETTINGS , lcd_control_temperature_preheat_abs_settings_menu ) ;
END_MENU ( ) ;
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}
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static void lcd_control_temperature_preheat_pla_settings_menu ( )
{
START_MENU ( ) ;
MENU_ITEM ( back , MSG_TEMPERATURE , lcd_control_temperature_menu ) ;
MENU_ITEM_EDIT ( int3 , MSG_FAN_SPEED , & plaPreheatFanSpeed , 0 , 255 ) ;
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# if TEMP_SENSOR_0 != 0
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MENU_ITEM_EDIT ( int3 , MSG_NOZZLE , & plaPreheatHotendTemp , 0 , HEATER_0_MAXTEMP - 15 ) ;
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# endif
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# if TEMP_SENSOR_BED != 0
MENU_ITEM_EDIT ( int3 , MSG_BED , & plaPreheatHPBTemp , 0 , BED_MAXTEMP - 15 ) ;
# endif
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# ifdef EEPROM_SETTINGS
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MENU_ITEM ( function , MSG_STORE_EPROM , Config_StoreSettings ) ;
# endif
END_MENU ( ) ;
}
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static void lcd_control_temperature_preheat_abs_settings_menu ( )
{
START_MENU ( ) ;
MENU_ITEM ( back , MSG_TEMPERATURE , lcd_control_temperature_menu ) ;
MENU_ITEM_EDIT ( int3 , MSG_FAN_SPEED , & absPreheatFanSpeed , 0 , 255 ) ;
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# if TEMP_SENSOR_0 != 0
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MENU_ITEM_EDIT ( int3 , MSG_NOZZLE , & absPreheatHotendTemp , 0 , HEATER_0_MAXTEMP - 15 ) ;
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# endif
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# if TEMP_SENSOR_BED != 0
MENU_ITEM_EDIT ( int3 , MSG_BED , & absPreheatHPBTemp , 0 , BED_MAXTEMP - 15 ) ;
# endif
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# ifdef EEPROM_SETTINGS
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MENU_ITEM ( function , MSG_STORE_EPROM , Config_StoreSettings ) ;
# endif
END_MENU ( ) ;
}
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static void lcd_control_motion_menu ( )
{
START_MENU ( ) ;
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MENU_ITEM ( back , MSG_CONTROL , lcd_control_menu ) ;
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# ifdef ENABLE_AUTO_BED_LEVELING
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MENU_ITEM_EDIT ( float32 , MSG_ZPROBE_ZOFFSET , & zprobe_zoffset , 0.5 , 50 ) ;
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# endif
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MENU_ITEM_EDIT ( float5 , MSG_ACC , & acceleration , 500 , 99000 ) ;
MENU_ITEM_EDIT ( float3 , MSG_VXY_JERK , & max_xy_jerk , 1 , 990 ) ;
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
2013-03-19 10:05:11 -04:00
MENU_ITEM_EDIT ( float52 , MSG_VZ_JERK , & max_z_jerk , 0.1 , 990 ) ;
MENU_ITEM_EDIT ( float3 , MSG_VE_JERK , & max_e_jerk , 1 , 990 ) ;
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MENU_ITEM_EDIT ( float3 , MSG_VMAX MSG_X , & max_feedrate [ X_AXIS ] , 1 , 999 ) ;
MENU_ITEM_EDIT ( float3 , MSG_VMAX MSG_Y , & max_feedrate [ Y_AXIS ] , 1 , 999 ) ;
MENU_ITEM_EDIT ( float3 , MSG_VMAX MSG_Z , & max_feedrate [ Z_AXIS ] , 1 , 999 ) ;
MENU_ITEM_EDIT ( float3 , MSG_VMAX MSG_E , & max_feedrate [ E_AXIS ] , 1 , 999 ) ;
MENU_ITEM_EDIT ( float3 , MSG_VMIN , & minimumfeedrate , 0 , 999 ) ;
MENU_ITEM_EDIT ( float3 , MSG_VTRAV_MIN , & mintravelfeedrate , 0 , 999 ) ;
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
2013-03-19 10:05:11 -04:00
MENU_ITEM_EDIT_CALLBACK ( long5 , MSG_AMAX MSG_X , & max_acceleration_units_per_sq_second [ X_AXIS ] , 100 , 99000 , reset_acceleration_rates ) ;
MENU_ITEM_EDIT_CALLBACK ( long5 , MSG_AMAX MSG_Y , & max_acceleration_units_per_sq_second [ Y_AXIS ] , 100 , 99000 , reset_acceleration_rates ) ;
MENU_ITEM_EDIT_CALLBACK ( long5 , MSG_AMAX MSG_Z , & max_acceleration_units_per_sq_second [ Z_AXIS ] , 100 , 99000 , reset_acceleration_rates ) ;
MENU_ITEM_EDIT_CALLBACK ( long5 , MSG_AMAX MSG_E , & max_acceleration_units_per_sq_second [ E_AXIS ] , 100 , 99000 , reset_acceleration_rates ) ;
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MENU_ITEM_EDIT ( float5 , MSG_A_RETRACT , & retract_acceleration , 100 , 99000 ) ;
MENU_ITEM_EDIT ( float52 , MSG_XSTEPS , & axis_steps_per_unit [ X_AXIS ] , 5 , 9999 ) ;
MENU_ITEM_EDIT ( float52 , MSG_YSTEPS , & axis_steps_per_unit [ Y_AXIS ] , 5 , 9999 ) ;
MENU_ITEM_EDIT ( float51 , MSG_ZSTEPS , & axis_steps_per_unit [ Z_AXIS ] , 5 , 9999 ) ;
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MENU_ITEM_EDIT ( float51 , MSG_ESTEPS , & axis_steps_per_unit [ E_AXIS ] , 5 , 9999 ) ;
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# ifdef ABORT_ON_ENDSTOP_HIT_FEATURE_ENABLED
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MENU_ITEM_EDIT ( bool , MSG_ENDSTOP_ABORT , & abort_on_endstop_hit ) ;
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# endif
# ifdef SCARA
MENU_ITEM_EDIT ( float74 , MSG_XSCALE , & axis_scaling [ X_AXIS ] , 0.5 , 2 ) ;
MENU_ITEM_EDIT ( float74 , MSG_YSCALE , & axis_scaling [ Y_AXIS ] , 0.5 , 2 ) ;
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# endif
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END_MENU ( ) ;
}
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static void lcd_control_volumetric_menu ( )
{
START_MENU ( ) ;
MENU_ITEM ( back , MSG_CONTROL , lcd_control_menu ) ;
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MENU_ITEM_EDIT_CALLBACK ( bool , MSG_VOLUMETRIC_ENABLED , & volumetric_enabled , calculate_volumetric_multipliers ) ;
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if ( volumetric_enabled ) {
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MENU_MULTIPLIER_ITEM_EDIT_CALLBACK ( float43 , MSG_FILAMENT_SIZE_EXTRUDER_0 , & filament_size [ 0 ] , 1.5 , 3.25 , calculate_volumetric_multipliers ) ;
# if EXTRUDERS > 1
MENU_MULTIPLIER_ITEM_EDIT_CALLBACK ( float43 , MSG_FILAMENT_SIZE_EXTRUDER_1 , & filament_size [ 1 ] , 1.5 , 3.25 , calculate_volumetric_multipliers ) ;
# if EXTRUDERS > 2
MENU_MULTIPLIER_ITEM_EDIT_CALLBACK ( float43 , MSG_FILAMENT_SIZE_EXTRUDER_2 , & filament_size [ 2 ] , 1.5 , 3.25 , calculate_volumetric_multipliers ) ;
# if EXTRUDERS > 3
MENU_MULTIPLIER_ITEM_EDIT_CALLBACK ( float43 , MSG_FILAMENT_SIZE_EXTRUDER_3 , & filament_size [ 3 ] , 1.5 , 3.25 , calculate_volumetric_multipliers ) ;
# endif //EXTRUDERS > 3
# endif //EXTRUDERS > 2
# endif //EXTRUDERS > 1
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}
END_MENU ( ) ;
}
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# ifdef DOGLCD
static void lcd_set_contrast ( )
{
if ( encoderPosition ! = 0 )
{
lcd_contrast - = encoderPosition ;
if ( lcd_contrast < 0 ) lcd_contrast = 0 ;
else if ( lcd_contrast > 63 ) lcd_contrast = 63 ;
encoderPosition = 0 ;
lcdDrawUpdate = 1 ;
u8g . setContrast ( lcd_contrast ) ;
}
if ( lcdDrawUpdate )
{
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lcd_implementation_drawedit ( PSTR ( MSG_CONTRAST ) , itostr2 ( lcd_contrast ) ) ;
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}
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if ( LCD_CLICKED ) lcd_goto_menu ( lcd_control_menu ) ;
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}
# endif
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# ifdef FWRETRACT
static void lcd_control_retract_menu ( )
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{
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START_MENU ( ) ;
MENU_ITEM ( back , MSG_CONTROL , lcd_control_menu ) ;
MENU_ITEM_EDIT ( bool , MSG_AUTORETRACT , & autoretract_enabled ) ;
MENU_ITEM_EDIT ( float52 , MSG_CONTROL_RETRACT , & retract_length , 0 , 100 ) ;
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# if EXTRUDERS > 1
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MENU_ITEM_EDIT ( float52 , MSG_CONTROL_RETRACT_SWAP , & retract_length_swap , 0 , 100 ) ;
# endif
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MENU_ITEM_EDIT ( float3 , MSG_CONTROL_RETRACTF , & retract_feedrate , 1 , 999 ) ;
MENU_ITEM_EDIT ( float52 , MSG_CONTROL_RETRACT_ZLIFT , & retract_zlift , 0 , 999 ) ;
MENU_ITEM_EDIT ( float52 , MSG_CONTROL_RETRACT_RECOVER , & retract_recover_length , 0 , 100 ) ;
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# if EXTRUDERS > 1
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MENU_ITEM_EDIT ( float52 , MSG_CONTROL_RETRACT_RECOVER_SWAP , & retract_recover_length_swap , 0 , 100 ) ;
# endif
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MENU_ITEM_EDIT ( float3 , MSG_CONTROL_RETRACT_RECOVERF , & retract_recover_feedrate , 1 , 999 ) ;
END_MENU ( ) ;
}
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# endif //FWRETRACT
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# if SDCARDDETECT == -1
static void lcd_sd_refresh ( )
{
card . initsd ( ) ;
currentMenuViewOffset = 0 ;
}
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# endif
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static void lcd_sd_updir ( )
{
card . updir ( ) ;
currentMenuViewOffset = 0 ;
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}
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void lcd_sdcard_menu ( )
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{
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if ( lcdDrawUpdate = = 0 & & LCD_CLICKED = = 0 )
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return ; // nothing to do (so don't thrash the SD card)
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uint16_t fileCnt = card . getnrfilenames ( ) ;
START_MENU ( ) ;
MENU_ITEM ( back , MSG_MAIN , lcd_main_menu ) ;
card . getWorkDirName ( ) ;
if ( card . filename [ 0 ] = = ' / ' )
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{
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# if SDCARDDETECT == -1
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MENU_ITEM ( function , LCD_STR_REFRESH MSG_REFRESH , lcd_sd_refresh ) ;
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# endif
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} else {
MENU_ITEM ( function , LCD_STR_FOLDER " .. " , lcd_sd_updir ) ;
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}
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for ( uint16_t i = 0 ; i < fileCnt ; i + + )
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{
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if ( _menuItemNr = = _lineNr )
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{
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# ifndef SDCARD_RATHERRECENTFIRST
card . getfilename ( i ) ;
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# else
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card . getfilename ( fileCnt - 1 - i ) ;
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# endif
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if ( card . filenameIsDir )
{
MENU_ITEM ( sddirectory , MSG_CARD_MENU , card . filename , card . longFilename ) ;
} else {
MENU_ITEM ( sdfile , MSG_CARD_MENU , card . filename , card . longFilename ) ;
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}
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} else {
MENU_ITEM_DUMMY ( ) ;
}
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}
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END_MENU ( ) ;
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}
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# define menu_edit_type(_type, _name, _strFunc, scale) \
void menu_edit_ # # _name ( ) \
{ \
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if ( ( int32_t ) encoderPosition < 0 ) encoderPosition = 0 ; \
if ( ( int32_t ) encoderPosition > maxEditValue ) encoderPosition = maxEditValue ; \
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if ( lcdDrawUpdate ) \
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lcd_implementation_drawedit ( editLabel , _strFunc ( ( ( _type ) ( ( int32_t ) encoderPosition + minEditValue ) ) / scale ) ) ; \
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if ( LCD_CLICKED ) \
{ \
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* ( ( _type * ) editValue ) = ( ( _type ) ( ( int32_t ) encoderPosition + minEditValue ) ) / scale ; \
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lcd_goto_menu ( prevMenu , prevEncoderPosition ) ; \
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} \
} \
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void menu_edit_callback_ # # _name ( ) { \
menu_edit_ # # _name ( ) ; \
if ( LCD_CLICKED ) ( * callbackFunc ) ( ) ; \
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
2013-03-19 10:05:11 -04:00
} \
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static void menu_action_setting_edit_ # # _name ( const char * pstr , _type * ptr , _type minValue , _type maxValue ) \
{ \
prevMenu = currentMenu ; \
prevEncoderPosition = encoderPosition ; \
\
lcdDrawUpdate = 2 ; \
currentMenu = menu_edit_ # # _name ; \
\
editLabel = pstr ; \
editValue = ptr ; \
minEditValue = minValue * scale ; \
2014-11-24 09:51:16 -05:00
maxEditValue = maxValue * scale - minEditValue ; \
encoderPosition = ( * ptr ) * scale - minEditValue ; \
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
2013-03-19 10:05:11 -04:00
} \
static void menu_action_setting_edit_callback_ # # _name ( const char * pstr , _type * ptr , _type minValue , _type maxValue , menuFunc_t callback ) \
{ \
prevMenu = currentMenu ; \
prevEncoderPosition = encoderPosition ; \
\
lcdDrawUpdate = 2 ; \
currentMenu = menu_edit_callback_ # # _name ; \
\
editLabel = pstr ; \
editValue = ptr ; \
minEditValue = minValue * scale ; \
2014-11-24 09:51:16 -05:00
maxEditValue = maxValue * scale - minEditValue ; \
encoderPosition = ( * ptr ) * scale - minEditValue ; \
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
2013-03-19 10:05:11 -04:00
callbackFunc = callback ; \
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}
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menu_edit_type ( int , int3 , itostr3 , 1 )
menu_edit_type ( float , float3 , ftostr3 , 1 )
menu_edit_type ( float , float32 , ftostr32 , 100 )
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menu_edit_type ( float , float43 , ftostr43 , 1000 )
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menu_edit_type ( float , float5 , ftostr5 , 0.01 )
menu_edit_type ( float , float51 , ftostr51 , 10 )
menu_edit_type ( float , float52 , ftostr52 , 100 )
menu_edit_type ( unsigned long , long5 , ftostr5 , 0.01 )
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# ifdef REPRAPWORLD_KEYPAD
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static void reprapworld_keypad_move_z_up ( ) {
encoderPosition = 1 ;
move_menu_scale = REPRAPWORLD_KEYPAD_MOVE_STEP ;
lcd_move_z ( ) ;
}
static void reprapworld_keypad_move_z_down ( ) {
encoderPosition = - 1 ;
move_menu_scale = REPRAPWORLD_KEYPAD_MOVE_STEP ;
lcd_move_z ( ) ;
}
static void reprapworld_keypad_move_x_left ( ) {
encoderPosition = - 1 ;
move_menu_scale = REPRAPWORLD_KEYPAD_MOVE_STEP ;
lcd_move_x ( ) ;
}
static void reprapworld_keypad_move_x_right ( ) {
encoderPosition = 1 ;
move_menu_scale = REPRAPWORLD_KEYPAD_MOVE_STEP ;
lcd_move_x ( ) ;
}
static void reprapworld_keypad_move_y_down ( ) {
encoderPosition = 1 ;
move_menu_scale = REPRAPWORLD_KEYPAD_MOVE_STEP ;
lcd_move_y ( ) ;
}
static void reprapworld_keypad_move_y_up ( ) {
encoderPosition = - 1 ;
move_menu_scale = REPRAPWORLD_KEYPAD_MOVE_STEP ;
lcd_move_y ( ) ;
}
static void reprapworld_keypad_move_home ( ) {
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enquecommands_P ( ( PSTR ( " G28 " ) ) ) ; // move all axis home
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}
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# endif
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/** End of menus **/
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static void lcd_quick_feedback ( )
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{
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lcdDrawUpdate = 2 ;
blocking_enc = millis ( ) + 500 ;
lcd_implementation_quick_feedback ( ) ;
}
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/** Menu action functions **/
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static void menu_action_back ( menuFunc_t data ) { lcd_goto_menu ( data ) ; }
static void menu_action_submenu ( menuFunc_t data ) { lcd_goto_menu ( data ) ; }
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static void menu_action_gcode ( const char * pgcode )
{
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enquecommands_P ( pgcode ) ;
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}
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static void menu_action_function ( menuFunc_t data ) { ( * data ) ( ) ; }
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static void menu_action_sdfile ( const char * filename , char * longFilename )
{
char cmd [ 30 ] ;
char * c ;
sprintf_P ( cmd , PSTR ( " M23 %s " ) , filename ) ;
for ( c = & cmd [ 4 ] ; * c ; c + + )
* c = tolower ( * c ) ;
enquecommand ( cmd ) ;
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enquecommands_P ( PSTR ( " M24 " ) ) ;
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lcd_return_to_status ( ) ;
}
static void menu_action_sddirectory ( const char * filename , char * longFilename )
{
card . chdir ( filename ) ;
encoderPosition = 0 ;
}
static void menu_action_setting_edit_bool ( const char * pstr , bool * ptr )
{
* ptr = ! ( * ptr ) ;
}
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static void menu_action_setting_edit_callback_bool ( const char * pstr , bool * ptr , menuFunc_t callback )
{
menu_action_setting_edit_bool ( pstr , ptr ) ;
( * callback ) ( ) ;
}
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# endif //ULTIPANEL
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2012-12-12 05:47:03 -05:00
/** LCD API **/
void lcd_init ( )
{
lcd_implementation_init ( ) ;
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2012-12-12 05:47:03 -05:00
# ifdef NEWPANEL
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SET_INPUT ( BTN_EN1 ) ;
SET_INPUT ( BTN_EN2 ) ;
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WRITE ( BTN_EN1 , HIGH ) ;
WRITE ( BTN_EN2 , HIGH ) ;
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# if BTN_ENC > 0
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SET_INPUT ( BTN_ENC ) ;
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WRITE ( BTN_ENC , HIGH ) ;
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# endif
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# ifdef REPRAPWORLD_KEYPAD
pinMode ( SHIFT_CLK , OUTPUT ) ;
pinMode ( SHIFT_LD , OUTPUT ) ;
pinMode ( SHIFT_OUT , INPUT ) ;
WRITE ( SHIFT_OUT , HIGH ) ;
WRITE ( SHIFT_LD , HIGH ) ;
# endif
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# else // Not NEWPANEL
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# ifdef SR_LCD_2W_NL // Non latching 2 wire shift register
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pinMode ( SR_DATA_PIN , OUTPUT ) ;
pinMode ( SR_CLK_PIN , OUTPUT ) ;
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# elif defined(SHIFT_CLK)
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pinMode ( SHIFT_CLK , OUTPUT ) ;
pinMode ( SHIFT_LD , OUTPUT ) ;
pinMode ( SHIFT_EN , OUTPUT ) ;
pinMode ( SHIFT_OUT , INPUT ) ;
WRITE ( SHIFT_OUT , HIGH ) ;
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WRITE ( SHIFT_LD , HIGH ) ;
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WRITE ( SHIFT_EN , LOW ) ;
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# else
# ifdef ULTIPANEL
# error ULTIPANEL requires an encoder
# endif
# endif // SR_LCD_2W_NL
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# endif //!NEWPANEL
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# if defined (SDSUPPORT) && defined(SDCARDDETECT) && (SDCARDDETECT > 0)
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pinMode ( SDCARDDETECT , INPUT ) ;
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WRITE ( SDCARDDETECT , HIGH ) ;
lcd_oldcardstatus = IS_SD_INSERTED ;
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# endif //(SDCARDDETECT > 0)
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# ifdef LCD_HAS_SLOW_BUTTONS
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slow_buttons = 0 ;
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# endif
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lcd_buttons_update ( ) ;
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# ifdef ULTIPANEL
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encoderDiff = 0 ;
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# endif
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}
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2012-12-12 05:47:03 -05:00
void lcd_update ( )
{
static unsigned long timeoutToStatus = 0 ;
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2013-06-06 18:49:25 -04:00
# ifdef LCD_HAS_SLOW_BUTTONS
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slow_buttons = lcd_implementation_read_slow_buttons ( ) ; // buttons which take too long to read in interrupt context
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# endif
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2013-11-17 11:41:30 -05:00
lcd_buttons_update ( ) ;
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2013-06-06 18:49:25 -04:00
# if (SDCARDDETECT > 0)
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if ( ( IS_SD_INSERTED ! = lcd_oldcardstatus & & lcd_detected ( ) ) )
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{
lcdDrawUpdate = 2 ;
lcd_oldcardstatus = IS_SD_INSERTED ;
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lcd_implementation_init ( // to maybe revive the LCD if static electricity killed it.
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# if defined(LCD_PROGRESS_BAR) && defined(SDSUPPORT) && !defined(DOGLCD)
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currentMenu = = lcd_status_screen
# endif
) ;
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2012-12-12 05:47:03 -05:00
if ( lcd_oldcardstatus )
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{
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card . initsd ( ) ;
LCD_MESSAGEPGM ( MSG_SD_INSERTED ) ;
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}
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else
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{
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card . release ( ) ;
LCD_MESSAGEPGM ( MSG_SD_REMOVED ) ;
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}
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}
# endif //CARDINSERTED
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if ( lcd_next_update_millis < millis ( ) )
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{
# ifdef ULTIPANEL
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# ifdef REPRAPWORLD_KEYPAD
if ( REPRAPWORLD_KEYPAD_MOVE_Z_UP ) {
reprapworld_keypad_move_z_up ( ) ;
}
if ( REPRAPWORLD_KEYPAD_MOVE_Z_DOWN ) {
reprapworld_keypad_move_z_down ( ) ;
}
if ( REPRAPWORLD_KEYPAD_MOVE_X_LEFT ) {
reprapworld_keypad_move_x_left ( ) ;
}
if ( REPRAPWORLD_KEYPAD_MOVE_X_RIGHT ) {
reprapworld_keypad_move_x_right ( ) ;
}
if ( REPRAPWORLD_KEYPAD_MOVE_Y_DOWN ) {
reprapworld_keypad_move_y_down ( ) ;
}
if ( REPRAPWORLD_KEYPAD_MOVE_Y_UP ) {
reprapworld_keypad_move_y_up ( ) ;
}
if ( REPRAPWORLD_KEYPAD_MOVE_HOME ) {
reprapworld_keypad_move_home ( ) ;
}
# endif
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if ( abs ( encoderDiff ) > = ENCODER_PULSES_PER_STEP )
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{
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int32_t encoderMultiplier = 1 ;
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# ifdef ENCODER_RATE_MULTIPLIER
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if ( encoderRateMultiplierEnabled )
{
int32_t encoderMovementSteps = abs ( encoderDiff ) / ENCODER_PULSES_PER_STEP ;
if ( lastEncoderMovementMillis ! = 0 )
{
// Note that the rate is always calculated between to passes through the
// loop and that the abs of the encoderDiff value is tracked.
float encoderStepRate =
( float ) ( encoderMovementSteps ) / ( ( float ) ( millis ( ) - lastEncoderMovementMillis ) ) * 1000.0 ;
if ( encoderStepRate > = ENCODER_100X_STEPS_PER_SEC )
{
encoderMultiplier = 100 ;
}
else if ( encoderStepRate > = ENCODER_10X_STEPS_PER_SEC )
{
encoderMultiplier = 10 ;
}
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# ifdef ENCODER_RATE_MULTIPLIER_DEBUG
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SERIAL_ECHO_START ;
SERIAL_ECHO ( " Enc Step Rate: " ) ;
SERIAL_ECHO ( encoderStepRate ) ;
SERIAL_ECHO ( " Multiplier: " ) ;
SERIAL_ECHO ( encoderMultiplier ) ;
SERIAL_ECHO ( " ENCODER_10X_STEPS_PER_SEC: " ) ;
SERIAL_ECHO ( ENCODER_10X_STEPS_PER_SEC ) ;
SERIAL_ECHO ( " ENCODER_100X_STEPS_PER_SEC: " ) ;
SERIAL_ECHOLN ( ENCODER_100X_STEPS_PER_SEC ) ;
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# endif
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}
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lastEncoderMovementMillis = millis ( ) ;
}
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# endif
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lcdDrawUpdate = 1 ;
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encoderPosition + = ( encoderDiff * encoderMultiplier ) / ENCODER_PULSES_PER_STEP ;
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encoderDiff = 0 ;
timeoutToStatus = millis ( ) + LCD_TIMEOUT_TO_STATUS ;
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}
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if ( LCD_CLICKED )
timeoutToStatus = millis ( ) + LCD_TIMEOUT_TO_STATUS ;
# endif //ULTIPANEL
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# ifdef DOGLCD // Changes due to different driver architecture of the DOGM display
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blink + + ; // Variable for fan animation and alive dot
u8g . firstPage ( ) ;
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do
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{
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u8g . setFont ( FONT_MENU ) ;
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u8g . setPrintPos ( 125 , 0 ) ;
if ( blink % 2 ) u8g . setColorIndex ( 1 ) ; else u8g . setColorIndex ( 0 ) ; // Set color for the alive dot
u8g . drawPixel ( 127 , 63 ) ; // draw alive dot
u8g . setColorIndex ( 1 ) ; // black on white
( * currentMenu ) ( ) ;
if ( ! lcdDrawUpdate ) break ; // Terminate display update, when nothing new to draw. This must be done before the last dogm.next()
} while ( u8g . nextPage ( ) ) ;
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# else
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( * currentMenu ) ( ) ;
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# endif
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# ifdef LCD_HAS_STATUS_INDICATORS
lcd_implementation_update_indicators ( ) ;
# endif
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# ifdef ULTIPANEL
if ( timeoutToStatus < millis ( ) & & currentMenu ! = lcd_status_screen )
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{
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lcd_return_to_status ( ) ;
lcdDrawUpdate = 2 ;
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}
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# endif //ULTIPANEL
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if ( lcdDrawUpdate = = 2 ) lcd_implementation_clear ( ) ;
if ( lcdDrawUpdate ) lcdDrawUpdate - - ;
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lcd_next_update_millis = millis ( ) + LCD_UPDATE_INTERVAL ;
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}
}
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void lcd_ignore_click ( bool b )
{
ignore_click = b ;
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wait_for_unclick = false ;
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}
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void lcd_finishstatus ( ) {
int len = strlen ( lcd_status_message ) ;
if ( len > 0 ) {
while ( len < LCD_WIDTH ) {
lcd_status_message [ len + + ] = ' ' ;
}
}
lcd_status_message [ LCD_WIDTH ] = ' \0 ' ;
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# if defined(LCD_PROGRESS_BAR) && defined(SDSUPPORT) && !defined(DOGLCD)
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# if PROGRESS_MSG_EXPIRE > 0
messageTick =
# endif
progressBarTick = millis ( ) ;
# endif
lcdDrawUpdate = 2 ;
# ifdef FILAMENT_LCD_DISPLAY
message_millis = millis ( ) ; //get status message to show up for a while
# endif
}
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void lcd_setstatus ( const char * message )
{
if ( lcd_status_message_level > 0 )
return ;
strncpy ( lcd_status_message , message , LCD_WIDTH ) ;
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lcd_finishstatus ( ) ;
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}
void lcd_setstatuspgm ( const char * message )
{
if ( lcd_status_message_level > 0 )
return ;
strncpy_P ( lcd_status_message , message , LCD_WIDTH ) ;
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lcd_finishstatus ( ) ;
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}
void lcd_setalertstatuspgm ( const char * message )
{
lcd_setstatuspgm ( message ) ;
lcd_status_message_level = 1 ;
# ifdef ULTIPANEL
lcd_return_to_status ( ) ;
# endif //ULTIPANEL
}
void lcd_reset_alert_level ( )
{
lcd_status_message_level = 0 ;
}
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# ifdef DOGLCD
void lcd_setcontrast ( uint8_t value )
{
lcd_contrast = value & 63 ;
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u8g . setContrast ( lcd_contrast ) ;
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}
# endif
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# ifdef ULTIPANEL
/* Warning: This function is called from interrupt context */
void lcd_buttons_update ( )
{
# ifdef NEWPANEL
uint8_t newbutton = 0 ;
if ( READ ( BTN_EN1 ) = = 0 ) newbutton | = EN_A ;
if ( READ ( BTN_EN2 ) = = 0 ) newbutton | = EN_B ;
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# if BTN_ENC > 0
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if ( ( blocking_enc < millis ( ) ) & & ( READ ( BTN_ENC ) = = 0 ) )
newbutton | = EN_C ;
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# endif
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buttons = newbutton ;
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# ifdef LCD_HAS_SLOW_BUTTONS
buttons | = slow_buttons ;
# endif
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# ifdef REPRAPWORLD_KEYPAD
// for the reprapworld_keypad
uint8_t newbutton_reprapworld_keypad = 0 ;
WRITE ( SHIFT_LD , LOW ) ;
WRITE ( SHIFT_LD , HIGH ) ;
for ( int8_t i = 0 ; i < 8 ; i + + ) {
newbutton_reprapworld_keypad = newbutton_reprapworld_keypad > > 1 ;
if ( READ ( SHIFT_OUT ) )
newbutton_reprapworld_keypad | = ( 1 < < 7 ) ;
WRITE ( SHIFT_CLK , HIGH ) ;
WRITE ( SHIFT_CLK , LOW ) ;
}
buttons_reprapworld_keypad = ~ newbutton_reprapworld_keypad ; //invert it, because a pressed switch produces a logical 0
# endif
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# else //read it from the shift register
uint8_t newbutton = 0 ;
WRITE ( SHIFT_LD , LOW ) ;
WRITE ( SHIFT_LD , HIGH ) ;
unsigned char tmp_buttons = 0 ;
for ( int8_t i = 0 ; i < 8 ; i + + )
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{
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newbutton = newbutton > > 1 ;
if ( READ ( SHIFT_OUT ) )
newbutton | = ( 1 < < 7 ) ;
WRITE ( SHIFT_CLK , HIGH ) ;
WRITE ( SHIFT_CLK , LOW ) ;
}
buttons = ~ newbutton ; //invert it, because a pressed switch produces a logical 0
# endif //!NEWPANEL
//manage encoder rotation
uint8_t enc = 0 ;
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if ( buttons & EN_A ) enc | = B01 ;
if ( buttons & EN_B ) enc | = B10 ;
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if ( enc ! = lastEncoderBits )
{
switch ( enc )
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{
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case encrot0 :
if ( lastEncoderBits = = encrot3 )
encoderDiff + + ;
else if ( lastEncoderBits = = encrot1 )
encoderDiff - - ;
break ;
case encrot1 :
if ( lastEncoderBits = = encrot0 )
encoderDiff + + ;
else if ( lastEncoderBits = = encrot2 )
encoderDiff - - ;
break ;
case encrot2 :
if ( lastEncoderBits = = encrot1 )
encoderDiff + + ;
else if ( lastEncoderBits = = encrot3 )
encoderDiff - - ;
break ;
case encrot3 :
if ( lastEncoderBits = = encrot2 )
encoderDiff + + ;
else if ( lastEncoderBits = = encrot0 )
encoderDiff - - ;
break ;
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}
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}
lastEncoderBits = enc ;
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}
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bool lcd_detected ( void )
{
# if (defined(LCD_I2C_TYPE_MCP23017) || defined(LCD_I2C_TYPE_MCP23008)) && defined(DETECT_DEVICE)
return lcd . LcdDetected ( ) = = 1 ;
# else
return true ;
# endif
}
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void lcd_buzz ( long duration , uint16_t freq )
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{
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# ifdef LCD_USE_I2C_BUZZER
lcd . buzz ( duration , freq ) ;
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# endif
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}
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bool lcd_clicked ( )
{
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return LCD_CLICKED ;
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}
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# endif //ULTIPANEL
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2012-12-12 05:47:03 -05:00
/********************************/
/** Float conversion utilities **/
/********************************/
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// convert float to string with +123.4 format
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char conv [ 8 ] ;
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char * ftostr3 ( const float & x )
{
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return itostr3 ( ( int ) x ) ;
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}
char * itostr2 ( const uint8_t & x )
{
//sprintf(conv,"%5.1f",x);
int xx = x ;
conv [ 0 ] = ( xx / 10 ) % 10 + ' 0 ' ;
conv [ 1 ] = ( xx ) % 10 + ' 0 ' ;
conv [ 2 ] = 0 ;
return conv ;
}
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// Convert float to string with 123.4 format, dropping sign
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char * ftostr31 ( const float & x )
{
int xx = x * 10 ;
conv [ 0 ] = ( xx > = 0 ) ? ' + ' : ' - ' ;
xx = abs ( xx ) ;
conv [ 1 ] = ( xx / 1000 ) % 10 + ' 0 ' ;
conv [ 2 ] = ( xx / 100 ) % 10 + ' 0 ' ;
conv [ 3 ] = ( xx / 10 ) % 10 + ' 0 ' ;
conv [ 4 ] = ' . ' ;
conv [ 5 ] = ( xx ) % 10 + ' 0 ' ;
conv [ 6 ] = 0 ;
return conv ;
}
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// Convert float to string with 123.4 format
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char * ftostr31ns ( const float & x )
{
int xx = x * 10 ;
//conv[0]=(xx>=0)?'+':'-';
xx = abs ( xx ) ;
conv [ 0 ] = ( xx / 1000 ) % 10 + ' 0 ' ;
conv [ 1 ] = ( xx / 100 ) % 10 + ' 0 ' ;
conv [ 2 ] = ( xx / 10 ) % 10 + ' 0 ' ;
conv [ 3 ] = ' . ' ;
conv [ 4 ] = ( xx ) % 10 + ' 0 ' ;
conv [ 5 ] = 0 ;
return conv ;
}
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char * ftostr32 ( const float & x )
{
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long xx = x * 100 ;
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if ( xx > = 0 )
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conv [ 0 ] = ( xx / 10000 ) % 10 + ' 0 ' ;
else
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conv [ 0 ] = ' - ' ;
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xx = abs ( xx ) ;
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conv [ 1 ] = ( xx / 1000 ) % 10 + ' 0 ' ;
conv [ 2 ] = ( xx / 100 ) % 10 + ' 0 ' ;
conv [ 3 ] = ' . ' ;
conv [ 4 ] = ( xx / 10 ) % 10 + ' 0 ' ;
conv [ 5 ] = ( xx ) % 10 + ' 0 ' ;
conv [ 6 ] = 0 ;
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return conv ;
}
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// Convert float to string with 1.234 format
char * ftostr43 ( const float & x )
{
long xx = x * 1000 ;
if ( xx > = 0 )
conv [ 0 ] = ( xx / 1000 ) % 10 + ' 0 ' ;
else
conv [ 0 ] = ' - ' ;
xx = abs ( xx ) ;
conv [ 1 ] = ' . ' ;
conv [ 2 ] = ( xx / 100 ) % 10 + ' 0 ' ;
conv [ 3 ] = ( xx / 10 ) % 10 + ' 0 ' ;
conv [ 4 ] = ( xx ) % 10 + ' 0 ' ;
conv [ 5 ] = 0 ;
return conv ;
}
//Float to string with 1.23 format
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char * ftostr12ns ( const float & x )
{
long xx = x * 100 ;
xx = abs ( xx ) ;
conv [ 0 ] = ( xx / 100 ) % 10 + ' 0 ' ;
conv [ 1 ] = ' . ' ;
conv [ 2 ] = ( xx / 10 ) % 10 + ' 0 ' ;
conv [ 3 ] = ( xx ) % 10 + ' 0 ' ;
conv [ 4 ] = 0 ;
return conv ;
}
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// convert float to space-padded string with -_23.4_ format
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char * ftostr32sp ( const float & x ) {
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long xx = abs ( x * 100 ) ;
uint8_t dig ;
if ( x < 0 ) { // negative val = -_0
conv [ 0 ] = ' - ' ;
dig = ( xx / 1000 ) % 10 ;
conv [ 1 ] = dig ? ' 0 ' + dig : ' ' ;
}
else { // positive val = __0
dig = ( xx / 10000 ) % 10 ;
if ( dig ) {
conv [ 0 ] = ' 0 ' + dig ;
conv [ 1 ] = ' 0 ' + ( xx / 1000 ) % 10 ;
}
else {
conv [ 0 ] = ' ' ;
dig = ( xx / 1000 ) % 10 ;
conv [ 1 ] = dig ? ' 0 ' + dig : ' ' ;
}
}
conv [ 2 ] = ' 0 ' + ( xx / 100 ) % 10 ; // lsd always
dig = xx % 10 ;
if ( dig ) { // 2 decimal places
conv [ 5 ] = ' 0 ' + dig ;
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conv [ 4 ] = ' 0 ' + ( xx / 10 ) % 10 ;
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conv [ 3 ] = ' . ' ;
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}
2014-12-08 04:43:44 -05:00
else { // 1 or 0 decimal place
dig = ( xx / 10 ) % 10 ;
if ( dig ) {
conv [ 4 ] = ' 0 ' + dig ;
conv [ 3 ] = ' . ' ;
}
else {
conv [ 3 ] = conv [ 4 ] = ' ' ;
}
conv [ 5 ] = ' ' ;
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}
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conv [ 6 ] = ' \0 ' ;
return conv ;
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}
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char * itostr31 ( const int & xx )
{
conv [ 0 ] = ( xx > = 0 ) ? ' + ' : ' - ' ;
conv [ 1 ] = ( xx / 1000 ) % 10 + ' 0 ' ;
conv [ 2 ] = ( xx / 100 ) % 10 + ' 0 ' ;
conv [ 3 ] = ( xx / 10 ) % 10 + ' 0 ' ;
conv [ 4 ] = ' . ' ;
conv [ 5 ] = ( xx ) % 10 + ' 0 ' ;
conv [ 6 ] = 0 ;
return conv ;
}
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// Convert int to rj string with 123 or -12 format
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char * itostr3 ( const int & x )
2011-12-12 13:34:37 -05:00
{
2014-06-24 08:31:15 -04:00
int xx = x ;
if ( xx < 0 ) {
conv [ 0 ] = ' - ' ;
xx = - xx ;
} else if ( xx > = 100 )
2012-12-12 05:47:03 -05:00
conv [ 0 ] = ( xx / 100 ) % 10 + ' 0 ' ;
else
conv [ 0 ] = ' ' ;
if ( xx > = 10 )
conv [ 1 ] = ( xx / 10 ) % 10 + ' 0 ' ;
else
conv [ 1 ] = ' ' ;
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conv [ 2 ] = ( xx ) % 10 + ' 0 ' ;
conv [ 3 ] = 0 ;
return conv ;
}
2014-12-28 01:26:14 -05:00
// Convert int to lj string with 123 format
2012-12-12 05:47:03 -05:00
char * itostr3left ( const int & xx )
{
if ( xx > = 100 )
{
conv [ 0 ] = ( xx / 100 ) % 10 + ' 0 ' ;
conv [ 1 ] = ( xx / 10 ) % 10 + ' 0 ' ;
conv [ 2 ] = ( xx ) % 10 + ' 0 ' ;
conv [ 3 ] = 0 ;
}
else if ( xx > = 10 )
{
conv [ 0 ] = ( xx / 10 ) % 10 + ' 0 ' ;
conv [ 1 ] = ( xx ) % 10 + ' 0 ' ;
conv [ 2 ] = 0 ;
}
else
{
conv [ 0 ] = ( xx ) % 10 + ' 0 ' ;
conv [ 1 ] = 0 ;
}
return conv ;
}
2014-12-18 10:30:05 -05:00
// Convert int to rj string with 1234 format
char * itostr4 ( const int & xx ) {
conv [ 0 ] = xx > = 1000 ? ( xx / 1000 ) % 10 + ' 0 ' : ' ' ;
conv [ 1 ] = xx > = 100 ? ( xx / 100 ) % 10 + ' 0 ' : ' ' ;
conv [ 2 ] = xx > = 10 ? ( xx / 10 ) % 10 + ' 0 ' : ' ' ;
conv [ 3 ] = xx % 10 + ' 0 ' ;
conv [ 4 ] = 0 ;
2011-12-12 13:34:37 -05:00
return conv ;
}
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// Convert float to rj string with 12345 format
2014-12-18 10:30:05 -05:00
char * ftostr5 ( const float & x ) {
long xx = abs ( x ) ;
conv [ 0 ] = xx > = 10000 ? ( xx / 10000 ) % 10 + ' 0 ' : ' ' ;
conv [ 1 ] = xx > = 1000 ? ( xx / 1000 ) % 10 + ' 0 ' : ' ' ;
conv [ 2 ] = xx > = 100 ? ( xx / 100 ) % 10 + ' 0 ' : ' ' ;
conv [ 3 ] = xx > = 10 ? ( xx / 10 ) % 10 + ' 0 ' : ' ' ;
conv [ 4 ] = xx % 10 + ' 0 ' ;
conv [ 5 ] = 0 ;
2012-12-12 05:47:03 -05:00
return conv ;
}
2014-12-28 01:26:14 -05:00
// Convert float to string with +1234.5 format
2011-12-12 13:34:37 -05:00
char * ftostr51 ( const float & x )
{
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long xx = x * 10 ;
2011-12-12 13:34:37 -05:00
conv [ 0 ] = ( xx > = 0 ) ? ' + ' : ' - ' ;
xx = abs ( xx ) ;
conv [ 1 ] = ( xx / 10000 ) % 10 + ' 0 ' ;
conv [ 2 ] = ( xx / 1000 ) % 10 + ' 0 ' ;
conv [ 3 ] = ( xx / 100 ) % 10 + ' 0 ' ;
conv [ 4 ] = ( xx / 10 ) % 10 + ' 0 ' ;
conv [ 5 ] = ' . ' ;
conv [ 6 ] = ( xx ) % 10 + ' 0 ' ;
conv [ 7 ] = 0 ;
return conv ;
}
2014-12-28 01:26:14 -05:00
// Convert float to string with +123.45 format
2012-02-21 17:05:43 -05:00
char * ftostr52 ( const float & x )
{
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long xx = x * 100 ;
2012-02-21 17:05:43 -05:00
conv [ 0 ] = ( xx > = 0 ) ? ' + ' : ' - ' ;
xx = abs ( xx ) ;
conv [ 1 ] = ( xx / 10000 ) % 10 + ' 0 ' ;
conv [ 2 ] = ( xx / 1000 ) % 10 + ' 0 ' ;
conv [ 3 ] = ( xx / 100 ) % 10 + ' 0 ' ;
conv [ 4 ] = ' . ' ;
conv [ 5 ] = ( xx / 10 ) % 10 + ' 0 ' ;
conv [ 6 ] = ( xx ) % 10 + ' 0 ' ;
conv [ 7 ] = 0 ;
return conv ;
}
2011-12-12 13:34:37 -05:00
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
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// Callback for after editing PID i value
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// grab the PID i value out of the temp variable; scale it; then update the PID driver
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
2013-03-19 10:05:11 -04:00
void copy_and_scalePID_i ( )
{
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# ifdef PIDTEMP
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PID_PARAM ( Ki , pid_current_extruder ) = scalePID_i ( raw_Ki ) ;
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
2013-03-19 10:05:11 -04:00
updatePID ( ) ;
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# endif
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}
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
2013-03-19 10:05:11 -04:00
// Callback for after editing PID d value
2014-02-17 08:04:44 -05:00
// grab the PID d value out of the temp variable; scale it; then update the PID driver
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
2013-03-19 10:05:11 -04:00
void copy_and_scalePID_d ( )
{
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# ifdef PIDTEMP
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PID_PARAM ( Kd , pid_current_extruder ) = scalePID_d ( raw_Kd ) ;
Allow Edit menu to call fn after edit; Fix PID Ki and Kd display in menus; Actually use changed PID and Max Accel values
Add new 'callback' edit-menu types that call a function after the edit is done. Use this to display and edit Ki and Kd correctly (removing the scaling first and reapplying it after). Also use it to reset maximum stepwise acceleration rates, after updating mm/s^2 rates via menus. (Previously, changes did nothing to affect planner unless saved back to EEPROM, and the machine reset).
Add calls to updatePID() so that PID loop uses updated values whether set by gcode (it already did this), or by restoring defaults, or loading from EEPROM (it didn't do those last two). Similarly, update the maximum step/s^2 accel rates when the mm/s^2 values are changed - whether by menu edits, restore defaults, or EEPROM read.
Refactor the acceleration rate update logic, and the PID scaling logic, into new functions that can be called from wherever, including the callbacks.
Add menu items to allow the z jerk and e jerk to be viewed/edited in the Control->Motion menu, as per xy jerk.
Conflicts:
Marlin/language.h
2013-03-19 10:05:11 -04:00
updatePID ( ) ;
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# endif
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}
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# endif //ULTRA_LCD