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harmonize indentation in anycubic_touchscreen sources

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Stefan Kalscheuer
2021-10-03 20:24:57 +02:00
parent 7077da3591
commit 9ffed0e031
2 changed files with 1153 additions and 1359 deletions
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1921
Marlin/src/lcd/anycubic_touchscreen.cpp
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591
Marlin/src/lcd/anycubic_touchscreen.h
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@@ -63,180 +63,178 @@ char *ftostr32(const float &);
#define ANYCUBIC_TFT_STATE_SDOUTAGE 99 #define ANYCUBIC_TFT_STATE_SDOUTAGE 99
#if DISABLED(KNUTWURST_DGUS2_TFT) #if DISABLED(KNUTWURST_DGUS2_TFT)
#define SM_DIR_UP_L "/.." #define SM_DIR_UP_L "/.."
#define SM_DIR_UP_S ".." #define SM_DIR_UP_S ".."
#define SM_SPECIAL_MENU_L "<Special Menu>" #define SM_SPECIAL_MENU_L "<Special Menu>"
#define SM_SPECIAL_MENU_S "<SPECM>" #define SM_SPECIAL_MENU_S "<SPECM>"
#define SM_PID_HOTEND_L "<PID Tune Hotend>" #define SM_PID_HOTEND_L "<PID Tune Hotend>"
#define SM_PID_HOTEND_S "<PIDHE>" #define SM_PID_HOTEND_S "<PIDHE>"
#define SM_PID_BED_L "<PID Tune Ultrabase>" #define SM_PID_BED_L "<PID Tune Ultrabase>"
#define SM_PID_BED_S "<PIDUB>" #define SM_PID_BED_S "<PIDUB>"
#define SM_SAVE_EEPROM_L "<Save EEPROM>" #define SM_SAVE_EEPROM_L "<Save EEPROM>"
#define SM_SAVE_EEPROM_S "<SAVEE>" #define SM_SAVE_EEPROM_S "<SAVEE>"
#define SM_LOAD_DEFAULTS_L "<Load FW Defaults>" #define SM_LOAD_DEFAULTS_L "<Load FW Defaults>"
#define SM_LOAD_DEFAULTS_S "<LDDEF>" #define SM_LOAD_DEFAULTS_S "<LDDEF>"
#define SM_PREHEAT_BED_L "<Preheat Ultrabase>" #define SM_PREHEAT_BED_L "<Preheat Ultrabase>"
#define SM_PREHEAT_BED_S "<PREHE>" #define SM_PREHEAT_BED_S "<PREHE>"
#define SM_MESH_MENU_L "<Mesh Leveling>" #define SM_MESH_MENU_L "<Mesh Leveling>"
#define SM_MESH_MENU_S "<MESHL>" #define SM_MESH_MENU_S "<MESHL>"
#define SM_MESH_START_L "<Start Mesh Leveling>" #define SM_MESH_START_L "<Start Mesh Leveling>"
#define SM_MESH_START_S "<SMESH>" #define SM_MESH_START_S "<SMESH>"
#define SM_MESH_NEXT_L "<Next Mesh Point>" #define SM_MESH_NEXT_L "<Next Mesh Point>"
#define SM_MESH_NEXT_S "<NEXTM>" #define SM_MESH_NEXT_S "<NEXTM>"
#define SM_Z_UP_01_L "<Z Up 0.1>" #define SM_Z_UP_01_L "<Z Up 0.1>"
#define SM_Z_UP_01_S "<ZUP01>" #define SM_Z_UP_01_S "<ZUP01>"
#define SM_Z_DN_01_L "<Z Down 0.1>" #define SM_Z_DN_01_L "<Z Down 0.1>"
#define SM_Z_DN_01_S "<ZDN01>" #define SM_Z_DN_01_S "<ZDN01>"
#define SM_Z_UP_002_L "<Z Up 0.02>" #define SM_Z_UP_002_L "<Z Up 0.02>"
#define SM_Z_UP_002_S "<ZUP002>" #define SM_Z_UP_002_S "<ZUP002>"
#define SM_Z_DN_002_L "<Z Down 0.02>" #define SM_Z_DN_002_L "<Z Down 0.02>"
#define SM_Z_DN_002_S "<ZDN002>" #define SM_Z_DN_002_S "<ZDN002>"
#define SM_Z_UP_001_L "<Z Up 0.01>" #define SM_Z_UP_001_L "<Z Up 0.01>"
#define SM_Z_UP_001_S "<ZUP001>" #define SM_Z_UP_001_S "<ZUP001>"
#define SM_Z_DN_001_L "<Z Down 0.01>" #define SM_Z_DN_001_L "<Z Down 0.01>"
#define SM_Z_DN_001_S "<ZDN001>" #define SM_Z_DN_001_S "<ZDN001>"
#define SM_BLTOUCH_L "<Start Auto Leveling>" #define SM_BLTOUCH_L "<Start Auto Leveling>"
#define SM_BLTOUCH_S "<BLTCH>" #define SM_BLTOUCH_S "<BLTCH>"
#define SM_RESETLV_L "<Reset Level Grid>" #define SM_RESETLV_L "<Reset Level Grid>"
#define SM_RESETLV_S "<RSTLV>" #define SM_RESETLV_S "<RSTLV>"
#define SM_PAUSE_L "<Fil. Change Pause>" #define SM_PAUSE_L "<Fil. Change Pause>"
#define SM_PAUSE_S "<PAUSE>" #define SM_PAUSE_S "<PAUSE>"
#define SM_RESUME_L "<Fil. Change Resume>" #define SM_RESUME_L "<Fil. Change Resume>"
#define SM_RESUME_S "<RESUM>" #define SM_RESUME_S "<RESUM>"
#define SM_DIS_FILSENS_L "<Disable Fil. Sensor>" #define SM_DIS_FILSENS_L "<Disable Fil. Sensor>"
#define SM_DIS_FILSENS_S "<DISSEN>" #define SM_DIS_FILSENS_S "<DISSEN>"
#define SM_EN_FILSENS_L "<Enable Fil. Sensor>" #define SM_EN_FILSENS_L "<Enable Fil. Sensor>"
#define SM_EN_FILSENS_S "<ENSEN>" #define SM_EN_FILSENS_S "<ENSEN>"
#define SM_EXIT_L "<Exit>" #define SM_EXIT_L "<Exit>"
#define SM_EXIT_S "<SMEXIT>" #define SM_EXIT_S "<SMEXIT>"
#define SM_BACK_L "<End Mesh Leveling>" #define SM_BACK_L "<End Mesh Leveling>"
#define SM_BACK_S "<BACK>" #define SM_BACK_S "<BACK>"
#define SM_FLOWMENU_L "<Set Flowrate>" #define SM_FLOWMENU_L "<Set Flowrate>"
#define SM_FLOWMENU_S "<SETFLO>" #define SM_FLOWMENU_S "<SETFLO>"
#define SM_FLOW_DISP_L "<Flow is XXX>" #define SM_FLOW_DISP_L "<Flow is XXX>"
#define SM_FLOW_DISP_S "<FLDISP>" #define SM_FLOW_DISP_S "<FLDISP>"
#define SM_FLOW_UP_L "<Up>" #define SM_FLOW_UP_L "<Up>"
#define SM_FLOW_UP_S "<FLUP>" #define SM_FLOW_UP_S "<FLUP>"
#define SM_FLOW_DN_L "<Down>" #define SM_FLOW_DN_L "<Down>"
#define SM_FLOW_DN_S "<FLDN>" #define SM_FLOW_DN_S "<FLDN>"
#define SM_FLOW_EXIT_L "<Exit Flow Settings>" #define SM_FLOW_EXIT_L "<Exit Flow Settings>"
#define SM_FLOW_EXIT_S "<EXTFLW>" #define SM_FLOW_EXIT_S "<EXTFLW>"
#define SM_EZLVL_MENU_L "<Easy 4 Point Level>" #define SM_EZLVL_MENU_L "<Easy 4 Point Level>"
#define SM_EZLVL_MENU_S "<EZLVLM>" #define SM_EZLVL_MENU_S "<EZLVLM>"
#define SM_EZLVL_P1_L "<Point A>" #define SM_EZLVL_P1_L "<Point A>"
#define SM_EZLVL_P1_S "<EZLPA>" #define SM_EZLVL_P1_S "<EZLPA>"
#define SM_EZLVL_P2_L "<Point B>" #define SM_EZLVL_P2_L "<Point B>"
#define SM_EZLVL_P2_S "<EZLPB>" #define SM_EZLVL_P2_S "<EZLPB>"
#define SM_EZLVL_P3_L "<Point C>" #define SM_EZLVL_P3_L "<Point C>"
#define SM_EZLVL_P3_S "<EZLPC>" #define SM_EZLVL_P3_S "<EZLPC>"
#define SM_EZLVL_P4_L "<Point D>" #define SM_EZLVL_P4_L "<Point D>"
#define SM_EZLVL_P4_S "<EZLPD>" #define SM_EZLVL_P4_S "<EZLPD>"
#define SM_EZLVL_EXIT_L "<Exit Easy Level>" #define SM_EZLVL_EXIT_L "<Exit Easy Level>"
#define SM_EZLVL_EXIT_S "<EZLEXT>" #define SM_EZLVL_EXIT_S "<EZLEXT>"
#define SM_BLTZMENU_L "<Auto Leveling>" #define SM_BLTZMENU_L "<Auto Leveling>"
#define SM_BLTZMENU_S "<SETOFZ>" #define SM_BLTZMENU_S "<SETOFZ>"
#define SM_BLTZ_DISP_L "<Z Offset: XXXXX>" #define SM_BLTZ_DISP_L "<Z Offset: XXXXX>"
#define SM_BLTZ_DISP_S "<OFZDSP>" #define SM_BLTZ_DISP_S "<OFZDSP>"
#define SM_BLTZ_UP_L "<Up>" #define SM_BLTZ_UP_L "<Up>"
#define SM_BLTZ_UP_S "<UPOFFZ0>" #define SM_BLTZ_UP_S "<UPOFFZ0>"
#define SM_BLTZ_DN_L "<Down>" #define SM_BLTZ_DN_L "<Down>"
#define SM_BLTZ_DN_S "<DNOFFZ0>" #define SM_BLTZ_DN_S "<DNOFFZ0>"
#define SM_BLTZ_EXIT_L "<SAVE and EXIT>" #define SM_BLTZ_EXIT_L "<SAVE and EXIT>"
#define SM_BLTZ_EXIT_S "<EXTABLM>" #define SM_BLTZ_EXIT_S "<EXTABLM>"
#endif // !KNUTWURST_DGUS2_TFT
#endif
#if ENABLED(KNUTWURST_DGUS2_TFT) #if ENABLED(KNUTWURST_DGUS2_TFT)
#define SM_DIR_UP_L "<<< BACK <<< .gcode" #define SM_DIR_UP_L "<<< BACK <<< .gcode"
#define SM_DIR_UP_S "DIR_UP~1.GCO" #define SM_DIR_UP_S "DIR_UP~1.GCO"
#define SM_SPECIAL_MENU_L "<Special Menu> .gcode" #define SM_SPECIAL_MENU_L "<Special Menu> .gcode"
#define SM_SPECIAL_MENU_S "<SPECI~1.GCO" #define SM_SPECIAL_MENU_S "<SPECI~1.GCO"
#define SM_PID_HOTEND_L "<PID Tune Hotend> .gcode" #define SM_PID_HOTEND_L "<PID Tune Hotend> .gcode"
#define SM_PID_HOTEND_S "<PIDTU~1.GCO" #define SM_PID_HOTEND_S "<PIDTU~1.GCO"
#define SM_PID_BED_L "<PID Tune Ultrabase>.gcode" #define SM_PID_BED_L "<PID Tune Ultrabase>.gcode"
#define SM_PID_BED_S "<PIDTU~2.GCO" #define SM_PID_BED_S "<PIDTU~2.GCO"
#define SM_SAVE_EEPROM_L "<Save EEPROM> .gcode" #define SM_SAVE_EEPROM_L "<Save EEPROM> .gcode"
#define SM_SAVE_EEPROM_S "<SAVEE~1.GCO" #define SM_SAVE_EEPROM_S "<SAVEE~1.GCO"
#define SM_LOAD_DEFAULTS_L "<Load FW Defaults> .gcode" #define SM_LOAD_DEFAULTS_L "<Load FW Defaults> .gcode"
#define SM_LOAD_DEFAULTS_S "<LOADF~1.GCO" #define SM_LOAD_DEFAULTS_S "<LOADF~1.GCO"
#define SM_PREHEAT_BED_L "<Preheat Ultrabase> .gcode" #define SM_PREHEAT_BED_L "<Preheat Ultrabase> .gcode"
#define SM_PREHEAT_BED_S "<PREHE~1.GCO" #define SM_PREHEAT_BED_S "<PREHE~1.GCO"
#define SM_MESH_MENU_L "<Mesh Leveling> .gcode" #define SM_MESH_MENU_L "<Mesh Leveling> .gcode"
#define SM_MESH_MENU_S "<MESHL~1.GCO" #define SM_MESH_MENU_S "<MESHL~1.GCO"
#define SM_MESH_START_L "<Start MeshLeveling>.gcode" #define SM_MESH_START_L "<Start MeshLeveling>.gcode"
#define SM_MESH_START_S "<START~1.GCO" #define SM_MESH_START_S "<START~1.GCO"
#define SM_MESH_NEXT_L "<Next Mesh Point> .gcode" #define SM_MESH_NEXT_L "<Next Mesh Point> .gcode"
#define SM_MESH_NEXT_S "<NEXTM~1.GCO" #define SM_MESH_NEXT_S "<NEXTM~1.GCO"
#define SM_Z_UP_01_L "<Z Up 0.1> .gcode" #define SM_Z_UP_01_L "<Z Up 0.1> .gcode"
#define SM_Z_UP_01_S "<ZUP01~1.GCO" #define SM_Z_UP_01_S "<ZUP01~1.GCO"
#define SM_Z_DN_01_L "<Z Down 0.1> .gcode" #define SM_Z_DN_01_L "<Z Down 0.1> .gcode"
#define SM_Z_DN_01_S "<ZDOWN~1.GCO" #define SM_Z_DN_01_S "<ZDOWN~1.GCO"
#define SM_Z_UP_002_L "<Z Up 0.02> .gcode" #define SM_Z_UP_002_L "<Z Up 0.02> .gcode"
#define SM_Z_UP_002_S "<ZUP00~1.GCO" #define SM_Z_UP_002_S "<ZUP00~1.GCO"
#define SM_Z_DN_002_L "<Z Down 0.02> .gcode" #define SM_Z_DN_002_L "<Z Down 0.02> .gcode"
#define SM_Z_DN_002_S "<ZDOWN~2.GCO" #define SM_Z_DN_002_S "<ZDOWN~2.GCO"
#define SM_Z_UP_001_L "<Z Up 0.01> .gcode" #define SM_Z_UP_001_L "<Z Up 0.01> .gcode"
#define SM_Z_UP_001_S "<ZUP00~2.GCO" #define SM_Z_UP_001_S "<ZUP00~2.GCO"
#define SM_Z_DN_001_L "<Z Down 0.01> .gcode" #define SM_Z_DN_001_L "<Z Down 0.01> .gcode"
#define SM_Z_DN_001_S "<ZDOWN~3.GCO" #define SM_Z_DN_001_S "<ZDOWN~3.GCO"
#define SM_BLTOUCH_L "<Start AutoLeveling>.gcode" #define SM_BLTOUCH_L "<Start AutoLeveling>.gcode"
#define SM_BLTOUCH_S "<BLTOU~1.GCO" #define SM_BLTOUCH_S "<BLTOU~1.GCO"
#define SM_RESETLV_L "<Reset Level Grid> .gcode" #define SM_RESETLV_L "<Reset Level Grid> .gcode"
#define SM_RESETLV_S "<RSTLV~1.GCO>" #define SM_RESETLV_S "<RSTLV~1.GCO>"
#define SM_PAUSE_L "<Fil. Change Pause> .gcode" #define SM_PAUSE_L "<Fil. Change Pause> .gcode"
#define SM_PAUSE_S "<FILCH~2.GCO" #define SM_PAUSE_S "<FILCH~2.GCO"
#define SM_RESUME_L "<Fil. Change Resume>.gcode" #define SM_RESUME_L "<Fil. Change Resume>.gcode"
#define SM_RESUME_S "<FILCH~1.GCO" #define SM_RESUME_S "<FILCH~1.GCO"
#define SM_DIS_FILSENS_L "<Disable Fil.Sensor>.gcode" #define SM_DIS_FILSENS_L "<Disable Fil.Sensor>.gcode"
#define SM_DIS_FILSENS_S "<DISAB~1.GCO" #define SM_DIS_FILSENS_S "<DISAB~1.GCO"
#define SM_EN_FILSENS_L "<Enable Fil. Sensor>.gcode" #define SM_EN_FILSENS_L "<Enable Fil. Sensor>.gcode"
#define SM_EN_FILSENS_S "<ENABL~1.GCO" #define SM_EN_FILSENS_S "<ENABL~1.GCO"
#define SM_EXIT_L "<Exit> .gcode" #define SM_EXIT_L "<Exit> .gcode"
#define SM_EXIT_S "<EXIT_~1.GCO" #define SM_EXIT_S "<EXIT_~1.GCO"
#define SM_BACK_L "<End Mesh Leveling> .gcode" #define SM_BACK_L "<End Mesh Leveling> .gcode"
#define SM_BACK_S "<BACK_~1.GCO" #define SM_BACK_S "<BACK_~1.GCO"
#define SM_FLOWMENU_L "<Set Flowrate> .gcode" #define SM_FLOWMENU_L "<Set Flowrate> .gcode"
#define SM_FLOWMENU_S "<SETFLO1.GCO" #define SM_FLOWMENU_S "<SETFLO1.GCO"
#define SM_FLOW_DISP_L "<Flow is XXX%> .gcode" #define SM_FLOW_DISP_L "<Flow is XXX%> .gcode"
#define SM_FLOW_DISP_S "<FLDISPL.GCO" #define SM_FLOW_DISP_S "<FLDISPL.GCO"
#define SM_FLOW_UP_L "<Up> .gcode" #define SM_FLOW_UP_L "<Up> .gcode"
#define SM_FLOW_UP_S "<UPFLOW1.GCO" #define SM_FLOW_UP_S "<UPFLOW1.GCO"
#define SM_FLOW_DN_L "<Down> .gcode" #define SM_FLOW_DN_L "<Down> .gcode"
#define SM_FLOW_DN_S "<DWNFLOW.GCO" #define SM_FLOW_DN_S "<DWNFLOW.GCO"
#define SM_FLOW_EXIT_L "<Exit Flow Settings>.gcode" #define SM_FLOW_EXIT_L "<Exit Flow Settings>.gcode"
#define SM_FLOW_EXIT_S "<EXTFLW1.GCO" #define SM_FLOW_EXIT_S "<EXTFLW1.GCO"
#define SM_EZLVL_MENU_L "<Easy 4 Point Level>.gcode" #define SM_EZLVL_MENU_L "<Easy 4 Point Level>.gcode"
#define SM_EZLVL_MENU_S "<EZLVLM1.GCO" #define SM_EZLVL_MENU_S "<EZLVLM1.GCO"
#define SM_EZLVL_P1_L "<Point A> .gcode" #define SM_EZLVL_P1_L "<Point A> .gcode"
#define SM_EZLVL_P1_S "<EZLPA01.GCO" #define SM_EZLVL_P1_S "<EZLPA01.GCO"
#define SM_EZLVL_P2_L "<Point B> .gcode" #define SM_EZLVL_P2_L "<Point B> .gcode"
#define SM_EZLVL_P2_S "<EZLPB01.GCO" #define SM_EZLVL_P2_S "<EZLPB01.GCO"
#define SM_EZLVL_P3_L "<Point C> .gcode" #define SM_EZLVL_P3_L "<Point C> .gcode"
#define SM_EZLVL_P3_S "<EZLPC01.GCO" #define SM_EZLVL_P3_S "<EZLPC01.GCO"
#define SM_EZLVL_P4_L "<Point D> .gcode" #define SM_EZLVL_P4_L "<Point D> .gcode"
#define SM_EZLVL_P4_S "<EZLPD01.GCO" #define SM_EZLVL_P4_S "<EZLPD01.GCO"
#define SM_EZLVL_EXIT_L "<Exit Easy Leveling>.gcode" #define SM_EZLVL_EXIT_L "<Exit Easy Leveling>.gcode"
#define SM_EZLVL_EXIT_S "<EZLEXT1.GCO" #define SM_EZLVL_EXIT_S "<EZLEXT1.GCO"
#define SM_BLTZMENU_L "<Auto Leveling> .gcode" #define SM_BLTZMENU_L "<Auto Leveling> .gcode"
#define SM_BLTZMENU_S "<SETOFZ0.GCO" #define SM_BLTZMENU_S "<SETOFZ0.GCO"
#define SM_BLTZ_DISP_L "<Z Offset: XXXXX> .gcode" #define SM_BLTZ_DISP_L "<Z Offset: XXXXX> .gcode"
#define SM_BLTZ_DISP_S "<OFZDSP0.GCO" #define SM_BLTZ_DISP_S "<OFZDSP0.GCO"
#define SM_BLTZ_UP_L "<Up> .gcode" #define SM_BLTZ_UP_L "<Up> .gcode"
#define SM_BLTZ_UP_S "<UPOFFZ0.GCO" #define SM_BLTZ_UP_S "<UPOFFZ0.GCO"
#define SM_BLTZ_DN_L "<Down> .gcode" #define SM_BLTZ_DN_L "<Down> .gcode"
#define SM_BLTZ_DN_S "<DOWNOFZ.GCO" #define SM_BLTZ_DN_S "<DOWNOFZ.GCO"
#define SM_BLTZ_EXIT_L "<SAVE and EXIT> .gcode" #define SM_BLTZ_EXIT_L "<SAVE and EXIT> .gcode"
#define SM_BLTZ_EXIT_S "<EXTABLM.GCO" #define SM_BLTZ_EXIT_S "<EXTABLM.GCO"
#endif // KNUTWURST_DGUS2_TFT
#endif
#if ENABLED(KNUTWURST_TFT_LEVELING) #if ENABLED(KNUTWURST_TFT_LEVELING)
// eeprom_index // eeprom_index
@@ -246,157 +244,150 @@ char *ftostr32(const float &);
extern float SAVE_zprobe_zoffset; extern float SAVE_zprobe_zoffset;
#endif #endif
class AnycubicTouchscreenClass class AnycubicTouchscreenClass {
{ public:
public: AnycubicTouchscreenClass();
AnycubicTouchscreenClass(); void Setup();
void Setup(); void CommandScan();
void CommandScan(); void BedHeatingStart();
void BedHeatingStart(); void BedHeatingDone();
void BedHeatingDone(); void HeatingDone();
void HeatingDone(); void HeatingStart();
void HeatingStart(); void FilamentRunout();
void FilamentRunout(); void KillTFT();
void KillTFT(); char TFTstate = ANYCUBIC_TFT_STATE_IDLE;
char TFTstate = ANYCUBIC_TFT_STATE_IDLE;
/** /**
* Anycubic TFT pause states: * Anycubic TFT pause states:
* *
* 0 - printing / stopped * 0 - printing / stopped
* 1 - regular pause * 1 - regular pause
* 2 - M600 pause * 2 - M600 pause
* 3 - filament runout pause * 3 - filament runout pause
* 4 - nozzle timeout on M600 * 4 - nozzle timeout on M600
* 5 - nozzle timeout on filament runout * 5 - nozzle timeout on filament runout
*/ */
uint8_t ai3m_pause_state = 0; uint8_t ai3m_pause_state = 0;
private: private:
char TFTcmdbuffer[TFTBUFSIZE][TFT_MAX_CMD_SIZE]; char TFTcmdbuffer[TFTBUFSIZE][TFT_MAX_CMD_SIZE];
int TFTbuflen = 0; int TFTbuflen = 0;
int TFTbufindr = 0; int TFTbufindr = 0;
int TFTbufindw = 0; int TFTbufindw = 0;
char serial3_char; char serial3_char;
int serial3_count = 0; int serial3_count = 0;
char *TFTstrchr_pointer; char *TFTstrchr_pointer;
char FlagResumFromOutage = 0; char FlagResumFromOutage = 0;
int filenumber = 0; int filenumber = 0;
unsigned long starttime = 0; unsigned long starttime = 0;
unsigned long stoptime = 0; unsigned long stoptime = 0;
uint8_t tmp_extruder = 0; uint8_t tmp_extruder = 0;
char LastSDstatus = 0; char LastSDstatus = 0;
uint16_t HeaterCheckCount = 0; uint16_t HeaterCheckCount = 0;
bool IsParked = false; bool IsParked = false;
int currentFlowRate = 0; int currentFlowRate = 0;
#if defined(POWER_OUTAGE_TEST) #if defined(POWER_OUTAGE_TEST)
struct OutageDataStruct struct OutageDataStruct {
{ char OutageDataVersion;
char OutageDataVersion; char OutageFlag;
char OutageFlag; float last_position[XYZE];
float last_position[XYZE]; float last_bed_temp;
float last_bed_temp; float last_hotend_temp;
float last_hotend_temp; long lastSDposition;
long lastSDposition; } OutageData;
} OutageData; #endif
#endif
int CodeValueInt(); int CodeValueInt();
float CodeValue(); float CodeValue();
bool CodeSeen(char); bool CodeSeen(char);
void PrintList(); void PrintList();
void StartPrint(); void StartPrint();
void PausePrint(); void PausePrint();
void StopPrint(); void StopPrint();
void StateHandler(); void StateHandler();
void GetCommandFromTFT(); void GetCommandFromTFT();
void CheckSDCardChange(); void CheckSDCardChange();
void CheckHeaterError(); void CheckHeaterError();
void HandleSpecialMenu(); void HandleSpecialMenu();
void FilamentChangePause(); void FilamentChangePause();
void FilamentChangeResume(); void FilamentChangeResume();
void ReheatNozzle(); void ReheatNozzle();
void ParkAfterStop(); void ParkAfterStop();
char currentTouchscreenSelection[64]; char currentTouchscreenSelection[64];
char currentFileOrDirectory[64]; char currentFileOrDirectory[64];
String flowRateBuffer; String flowRateBuffer;
String zOffsetBuffer; String zOffsetBuffer;
uint16_t MyFileNrCnt = 0; uint16_t MyFileNrCnt = 0;
uint8_t FilamentSensorEnabled = true; uint8_t FilamentSensorEnabled = true;
uint8_t SpecialMenu = false; uint8_t SpecialMenu = false;
uint8_t MMLMenu = false; uint8_t MMLMenu = false;
uint8_t FlowMenu = false; uint8_t FlowMenu = false;
uint8_t BLTouchMenu = false; uint8_t BLTouchMenu = false;
uint8_t LevelMenu = false; uint8_t LevelMenu = false;
uint8_t CaseLight = true; uint8_t CaseLight = true;
#if ENABLED(ANYCUBIC_FILAMENT_RUNOUT_SENSOR) #if ENABLED(ANYCUBIC_FILAMENT_RUNOUT_SENSOR)
char FilamentTestStatus = false; char FilamentTestStatus = false;
char FilamentTestLastStatus = false; char FilamentTestLastStatus = false;
bool FilamentSetMillis = true; bool FilamentSetMillis = true;
int FilamentRunoutCounter = 0; int FilamentRunoutCounter = 0;
#endif #endif
#if ENABLED(KNUTWURST_MEGA_P_LASER)
typedef struct {
unsigned char bfType[2];
unsigned char bfSize[4];
unsigned char bfReserved1[2];
unsigned char bfReserved2[2];
unsigned char bfOffBits[4];
unsigned char biSize[4];
unsigned char biWidth[4];
unsigned char biHeight[4];
unsigned char biPlanes[2];
unsigned char biBitCount[2];
unsigned char biCompression[4];
unsigned char biSizeImage[4];
unsigned char biXPelsPerMeter[4];
unsigned char biYPelsPerMeter[4];
unsigned char biClrUsed[4];
unsigned char biClrImportant[4];
} BMP_HEAD;
#if ENABLED(KNUTWURST_MEGA_P_LASER) typedef struct {
unsigned long pic_file_size;
unsigned long pic_ptr;
unsigned long pic_start;
typedef struct { float pic_pixel_distance;
unsigned char bfType[2]; float laser_height;
unsigned char bfSize[4]; float x_offset;
unsigned char bfReserved1[2]; float y_offset;
unsigned char bfReserved2[2];
unsigned char bfOffBits[4];
unsigned char biSize[4];
unsigned char biWidth[4];
unsigned char biHeight[4];
unsigned char biPlanes[2];
unsigned char biBitCount[2];
unsigned char biCompression[4];
unsigned char biSizeImage[4];
unsigned char biXPelsPerMeter[4];
unsigned char biYPelsPerMeter[4];
unsigned char biClrUsed[4];
unsigned char biClrImportant[4];
}BMP_HEAD;
unsigned int pic_realy_widht;
unsigned int pic_widht;
unsigned int pic_hight;
unsigned char pic_bit;
unsigned char pic_widht_odd;
unsigned char pic_hight_odd;
typedef struct unsigned char pic_print_status;
{ unsigned char pic_dir;
unsigned long pic_file_size;
unsigned long pic_ptr;
unsigned long pic_start;
float pic_pixel_distance; unsigned char pic_vector;
float laser_height; unsigned char pic_x_mirror;
float x_offset; unsigned char pic_y_mirror;
float y_offset; unsigned char pic_laser_time;
} PRINTER_STRUCT;
unsigned int pic_realy_widht;
unsigned int pic_widht;
unsigned int pic_hight;
unsigned char pic_bit;
unsigned char pic_widht_odd;
unsigned char pic_hight_odd;
unsigned char pic_print_status;
unsigned char pic_dir;
unsigned char pic_vector;
unsigned char pic_x_mirror;
unsigned char pic_y_mirror;
unsigned char pic_laser_time;
}PRINTER_STRUCT;
#define PIC_FIXED 0.1f // // POINT/MM
#define PIC_OPEN 50 // // ms
#define PIC_SPEDD 20000
#define MIN_GRAY_VLAUE 20
#define LASER_PRINT_SPEED 30 //50*60
#endif
#define PIC_FIXED 0.1f // // POINT/MM
#define PIC_OPEN 50 // // ms
#define PIC_SPEDD 20000
#define MIN_GRAY_VLAUE 20
#define LASER_PRINT_SPEED 30 //50*60
#endif
}; };
extern AnycubicTouchscreenClass AnycubicTouchscreen; extern AnycubicTouchscreenClass AnycubicTouchscreen;