Support new style Anycubic Chiron TFT (#21597)

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Nick 2021-04-19 05:04:38 +01:00 committed by GitHub
parent 59fd6428ae
commit d5143c2c15
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7 changed files with 484 additions and 232 deletions

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@ -1617,6 +1617,31 @@
#endif #endif
#endif // HAS_DGUS_LCD #endif // HAS_DGUS_LCD
//
// Additional options for AnyCubic Chiron TFT displays
//
#if ENABLED(ANYCUBIC_LCD_CHIRON)
// By default the type of panel is automatically detected.
// Enable one of these options if you know the panel type.
//#define CHIRON_TFT_STANDARD
//#define CHIRON_TFT_NEW
// Enable the longer Anycubic powerup startup tune
//#define AC_DEFAULT_STARTUP_TUNE
/**
* Display Folders
* By default the file browser lists all G-code files (including those in subfolders) in a flat list.
* Enable this option to display a hierarchical file browser.
*
* NOTES:
* - Without this option it helps to enable SDCARD_SORT_ALPHA so files are sorted before/after folders.
* - When used with the "new" panel, folder names will also have '.gcode' appended to their names.
* This hack is currently required to force the panel to show folders.
*/
#define AC_SD_FOLDER_VIEW
#endif
// //
// Specify additional languages for the UI. Default specified by LCD_LANGUAGE. // Specify additional languages for the UI. Default specified by LCD_LANGUAGE.
// //

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@ -2443,6 +2443,10 @@ static_assert(hbm[Z_AXIS] >= 0, "HOMING_BUMP_MM.Z must be greater than or equal
#error "GRAPHICAL_TFT_UPSCALE must be 2, 3, or 4." #error "GRAPHICAL_TFT_UPSCALE must be 2, 3, or 4."
#endif #endif
#if BOTH(CHIRON_TFT_STANDARD, CHIRON_TFT_NEW)
#error "Please select only one of CHIRON_TFT_STANDARD or CHIRON_TFT_NEW."
#endif
/** /**
* Some boards forbid the use of -1 Native USB * Some boards forbid the use of -1 Native USB
*/ */

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@ -26,139 +26,233 @@
* Extensible_UI implementation for Anycubic Chiron * Extensible_UI implementation for Anycubic Chiron
* Written By Nick Wells, 2020 [https://github.com/SwiftNick] * Written By Nick Wells, 2020 [https://github.com/SwiftNick]
* (not affiliated with Anycubic, Ltd.) * (not affiliated with Anycubic, Ltd.)
*
* The AC panel wants files in block of 4 and can only display a flat list
* This library allows full folder traversal or flat file display and supports both standerd and new style panels.
*
* ## Old Style TFT panel
* Supported chars {}[]-+=_"$%^&*()~<>|
* Max display length 22 chars
* Max path len 29 chars
* (DOS 8.3 filepath max 29chars)
* (long filepath Max 22)
*
* ## New TFT Panel Format file display format
* Supported chars {}[]-+=_!"$%^&*()~<>\|
* Max display length 26 chars
* Max path len 29 chars
* (DOS 8.3 filepath must end '.GCO')
* (long filepath must end '.gcode')
*
*/ */
/***************************************************************************
* The AC panel wants files in block of 4 and can only display a flat list *
* This library allows full folder traversal. *
***************************************************************************/
#include "../../../../inc/MarlinConfigPre.h" #include "../../../../inc/MarlinConfigPre.h"
#if ENABLED(ANYCUBIC_LCD_CHIRON) #if ENABLED(ANYCUBIC_LCD_CHIRON)
#include "FileNavigator.h" #include "FileNavigator.h"
#include "chiron_tft.h" #include "chiron_tft.h"
using namespace ExtUI; using namespace ExtUI;
#define DEBUG_OUT ACDEBUG(AC_FILE)
#include "../../../../core/debug_out.h"
namespace Anycubic { namespace Anycubic {
FileNavigator filenavigator; FileNavigator filenavigator;
FileList FileNavigator::filelist; // Instance of the Marlin file API
uint16_t FileNavigator::lastpanelindex;
uint16_t FileNavigator::currentindex; // override the panel request
uint8_t FileNavigator::currentfolderdepth;
uint16_t FileNavigator::currentfolderindex[MAX_FOLDER_DEPTH]; // track folder pos for iteration
char FileNavigator::currentfoldername[MAX_PATH_LEN + 1]; // Current folder path
FileList FileNavigator::filelist; // Instance of the Marlin file API FileNavigator::FileNavigator() { reset(); }
char FileNavigator::currentfoldername[MAX_PATH_LEN]; // Current folder path
uint16_t FileNavigator::lastindex;
uint8_t FileNavigator::folderdepth;
uint16_t FileNavigator::currentindex; // override the panel request
FileNavigator::FileNavigator() { reset(); } void FileNavigator::reset() {
DEBUG_ECHOLNPGM("reset()");
currentfoldername[0] = '\0';
currentfolderdepth = 0;
currentindex = 0;
lastpanelindex = 0;
ZERO(currentfolderindex)
void FileNavigator::reset() { // Start at root folder
currentfoldername[0] = '\0'; while (!filelist.isAtRootDir()) filelist.upDir();
folderdepth = 0; refresh();
currentindex = 0; }
lastindex = 0;
// Start at root folder void FileNavigator::refresh() { filelist.refresh(); }
while (!filelist.isAtRootDir()) filelist.upDir();
refresh(); void FileNavigator::changeDIR(const char *folder) {
if (currentfolderdepth >= MAX_FOLDER_DEPTH) return; // limit the folder depth
DEBUG_ECHOLNPAIR("FD:" , folderdepth, " FP:",currentindex, " currentfolder:", currentfoldername, " enter:", folder);
currentfolderindex[currentfolderdepth] = currentindex;
strcat(currentfoldername, folder);
strcat(currentfoldername, "/");
filelist.changeDir(folder);
currentfolderdepth++;
currentindex = 0;
}
void FileNavigator::upDIR() {
DEBUG_ECHOLNPAIR("upDIR() from D:", currentfolderdepth, " N:", currentfoldername);
if (!filelist.isAtRootDir()) {
filelist.upDir();
currentfolderdepth--;
currentindex = currentfolderindex[currentfolderdepth]; // restore last position in the folder
filelist.seek(currentindex); // restore file information
} }
void FileNavigator::refresh() { filelist.refresh(); } // Remove the child folder from the stored path
if (currentfolderdepth == 0)
currentfoldername[0] = '\0';
else {
const char *pos = strchr(currentfoldername, '/');
*(pos + 1) = '\0';
}
}
void FileNavigator::getFiles(uint16_t index) { void FileNavigator::skiptofileindex(uint16_t skip) {
uint8_t files = 4; if (skip == 0) return;
if (index == 0) currentindex = 0; while (skip > 0) {
if (filelist.seek(currentindex)) {
// Each time we change folder we reset the file index to 0 and keep track DEBUG_ECHOLNPAIR("CI:", currentindex, " FD:", currentfolderdepth, " N:", skip, " ", filelist.longFilename());
// of the current position as the TFT panel isnt aware of folders trees. if (!filelist.isDir()) {
if (index > 0) { skip--;
--currentindex; // go back a file to take account of the .. added to the root. currentindex++;
if (index > lastindex) }
currentindex += files;
else else
currentindex = currentindex < 4 ? 0 : currentindex - files; changeDIR(filelist.shortFilename());
} // valid file
if (currentindex == filelist.count()) {
if (currentfolderdepth > 0) {
upDIR();
currentindex++;
}
else break; // end of root folder
} // end of folder
} // files needed
// No more files available.
}
#if ENABLED(AC_SD_FOLDER_VIEW) // SD Folder navigation
void FileNavigator::getFiles(uint16_t index, panel_type_t paneltype, uint8_t filesneeded) {
if (index == 0) currentindex = 0;
// Each time we change folder we reset the file index to 0 and keep track
// of the current position, since the TFT panel isn't aware of folder trees.
if (index > 0) {
--currentindex; // go back a file to take account of the .. we added to the root.
if (index > lastpanelindex)
currentindex += filesneeded;
else
currentindex = currentindex < 4 ? 0 : currentindex - filesneeded;
} }
lastindex = index; lastpanelindex = index;
#if ACDEBUG(AC_FILE) DEBUG_ECHOLNPAIR("index=", index, " currentindex=", currentindex);
SERIAL_ECHOLNPAIR("index=", index, " currentindex=", currentindex);
#endif
if (currentindex == 0 && folderdepth > 0) { // Add a link to go up a folder if (currentindex == 0 && currentfolderdepth > 0) { // Add a link to go up a folder
TFTSer.println("<<"); // The new panel ignores entries that don't end in .GCO or .gcode so add and pad them.
TFTSer.println(".."); if (paneltype == AC_panel_new) {
files--; TFTSer.println("<<.GCO");
Chiron.SendtoTFTLN(PSTR(".. .gcode"));
}
else {
TFTSer.println("<<");
TFTSer.println("..");
}
filesneeded--;
} }
for (uint16_t seek = currentindex; seek < currentindex + files; seek++) { for (uint16_t seek = currentindex; seek < currentindex + filesneeded; seek++) {
if (filelist.seek(seek)) { if (filelist.seek(seek)) {
sendFile(); sendFile(paneltype);
#if ACDEBUG(AC_FILE) DEBUG_ECHOLNPAIR("-", seek, " '", filelist.longFilename(), "' '", currentfoldername, "", filelist.shortFilename(), "'");
SERIAL_ECHOLNPAIR("-", seek, " '", filelist.longFilename(), "' '", currentfoldername, "", filelist.shortFilename(), "'\n");
#endif
} }
} }
} }
void FileNavigator::sendFile() { void FileNavigator::sendFile(panel_type_t paneltype) {
// send the file and folder info to the panel
// this info will be returned when the file is selected
// Permitted special characters in file name -_*#~
// Panel can display 22 characters per line
if (filelist.isDir()) { if (filelist.isDir()) {
//TFTSer.print(currentfoldername); // Add mandatory tags for new panel otherwise lines are ignored.
TFTSer.println(filelist.shortFilename()); if (paneltype == AC_panel_new) {
TFTSer.print(filelist.shortFilename()); TFTSer.print(filelist.shortFilename());
TFTSer.println("/"); TFTSer.println(".GCO");
TFTSer.print(filelist.shortFilename());
TFTSer.write('/');
// Make sure we fill all 29 chars of the display line to clear the text buffer otherwise the last line is still visible
for (int8_t i = strlen(filelist.shortFilename()); i < 19; i++)
TFTSer.write(' ');
TFTSer.println(".gcode");
}
else {
TFTSer.println(filelist.shortFilename());
TFTSer.print(filelist.shortFilename());
TFTSer.write('/');
TFTSer.println();
}
} }
else { else { // Not DIR
// Logical Name
TFTSer.write('/'); TFTSer.write('/');
if (folderdepth > 0) TFTSer.print(currentfoldername); if (currentfolderdepth > 0) TFTSer.print(currentfoldername);
TFTSer.println(filelist.shortFilename()); TFTSer.println(filelist.shortFilename());
TFTSer.print(filelist.longFilename());
// Display Name // Make sure we fill all 29 chars of the display line to clear the text buffer otherwise the last line is still visible
TFTSer.println(filelist.longFilename()); if (paneltype == AC_panel_new)
for (int8_t i = strlen(filelist.longFilename()); i < 26; i++)
TFTSer.write(' ');
TFTSer.println();
} }
} } // AC_SD_FOLDER_VIEW
void FileNavigator::changeDIR(char *folder) {
#if ACDEBUG(AC_FILE)
SERIAL_ECHOLNPAIR("currentfolder: ", currentfoldername, " New: ", folder);
#endif
if (folderdepth >= MAX_FOLDER_DEPTH) return; // limit the folder depth
strcat(currentfoldername, folder);
strcat(currentfoldername, "/");
filelist.changeDir(folder);
refresh();
folderdepth++;
currentindex = 0;
}
void FileNavigator::upDIR() { #else // Flat file list
filelist.upDir();
refresh(); void FileNavigator::getFiles(uint16_t index, panel_type_t paneltype, uint8_t filesneeded) {
folderdepth--; DEBUG_ECHOLNPAIR("getFiles() I:", index," L:", lastpanelindex);
currentindex = 0; // if we're searching backwards, jump back to start and search forward
// Remove the last child folder from the stored path if (index < lastpanelindex) {
if (folderdepth == 0) {
currentfoldername[0] = '\0';
reset(); reset();
skiptofileindex(index);
} }
else { lastpanelindex = index;
char *pos = nullptr;
for (uint8_t f = 0; f < folderdepth; f++)
pos = strchr(currentfoldername, '/');
*(pos + 1) = '\0'; while (filesneeded > 0) {
} if (filelist.seek(currentindex)) {
#if ACDEBUG(AC_FILE) if (!filelist.isDir()) {
SERIAL_ECHOLNPAIR("depth: ", folderdepth, " currentfoldername: ", currentfoldername); sendFile(paneltype);
#endif filesneeded--;
currentindex++;
}
else
changeDIR(filelist.shortFilename());
} // valid file
if (currentindex == filelist.count()) {
if (currentfolderdepth > 0) {
upDIR();
currentindex++;
}
else break; // end of root folder
} // end of folder
} // files needed
// No more files available.
} }
char* FileNavigator::getCurrentFolderName() { return currentfoldername; } void FileNavigator::sendFile(panel_type_t paneltype) {
} TFTSer.write('/');
if (currentfolderdepth > 0) TFTSer.print(currentfoldername);
TFTSer.println(filelist.shortFilename());
if (currentfolderdepth > 0) TFTSer.print(currentfoldername);
TFTSer.println(filelist.longFilename());
DEBUG_ECHOLNPAIR("/", currentfoldername, "", filelist.shortFilename(), " ", filelist.longFilename());
}
#endif // Flat file list
} // Anycubic namespace
#endif // ANYCUBIC_LCD_CHIRON #endif // ANYCUBIC_LCD_CHIRON

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@ -38,14 +38,13 @@ namespace Anycubic {
class FileNavigator { class FileNavigator {
public: public:
FileNavigator(); static void reset();
void reset(); static void getFiles(uint16_t, panel_type_t, uint8_t filesneeded=4);
void getFiles(uint16_t, panel_type_t, uint8_t filesneeded=4); static void upDIR();
void upDIR(); static void changeDIR(const char *);
void changeDIR(const char *); static void sendFile(panel_type_t);
void sendFile(panel_type_t); static void refresh();
void refresh(); static void skiptofileindex(uint16_t);
void skiptofileindex(uint16_t);
static FileList filelist; static FileList filelist;
private: private:
@ -53,7 +52,7 @@ class FileNavigator {
static uint16_t currentindex; static uint16_t currentindex;
static uint8_t currentfolderdepth; static uint8_t currentfolderdepth;
static uint16_t currentfolderindex[MAX_FOLDER_DEPTH]; static uint16_t currentfolderindex[MAX_FOLDER_DEPTH];
static char currentfoldername[MAX_PATH_LEN]; static char currentfoldername[MAX_PATH_LEN + 1];
}; };
extern FileNavigator filenavigator; extern FileNavigator filenavigator;

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@ -43,25 +43,27 @@
namespace Anycubic { namespace Anycubic {
ChironTFT Chiron;
#if AUTO_DETECT_CHIRON_TFT
panel_type_t ChironTFT::panel_type = AC_panel_unknown;
#endif
last_error_t ChironTFT::last_error;
printer_state_t ChironTFT::printer_state; printer_state_t ChironTFT::printer_state;
paused_state_t ChironTFT::pause_state; paused_state_t ChironTFT::pause_state;
heater_state_t ChironTFT::hotend_state; heater_state_t ChironTFT::hotend_state;
heater_state_t ChironTFT::hotbed_state; heater_state_t ChironTFT::hotbed_state;
xy_uint8_t ChironTFT::selectedmeshpoint; xy_uint8_t ChironTFT::selectedmeshpoint;
char ChironTFT::selectedfile[MAX_PATH_LEN]; char ChironTFT::selectedfile[MAX_PATH_LEN + 1];
char ChironTFT::panel_command[MAX_CMND_LEN]; char ChironTFT::panel_command[MAX_CMND_LEN + 1];
uint8_t ChironTFT::command_len; uint8_t ChironTFT::command_len;
float ChironTFT::live_Zoffset; float ChironTFT::live_Zoffset;
file_menu_t ChironTFT::file_menu; file_menu_t ChironTFT::file_menu;
ChironTFT Chiron;
ChironTFT::ChironTFT(){}
void ChironTFT::Startup() { void ChironTFT::Startup() {
selectedfile[0] = '\0'; selectedfile[0] = '\0';
panel_command[0] = '\0'; panel_command[0] = '\0';
command_len = 0; command_len = 0;
last_error = AC_error_none;
printer_state = AC_printer_idle; printer_state = AC_printer_idle;
pause_state = AC_paused_idle; pause_state = AC_paused_idle;
hotend_state = AC_heater_off; hotend_state = AC_heater_off;
@ -80,27 +82,41 @@ void ChironTFT::Startup() {
// Filament runout is handled by Marlin settings in Configuration.h // Filament runout is handled by Marlin settings in Configuration.h
// opt_set FIL_RUNOUT_STATE HIGH // Pin state indicating that filament is NOT present. // opt_set FIL_RUNOUT_STATE HIGH // Pin state indicating that filament is NOT present.
// opt_enable FIL_RUNOUT_PULLUP // opt_enable FIL_RUNOUT_PULLUP
TFTSer.begin(115200); TFTSer.begin(115200);
// wait for the TFT panel to initialise and finish the animation
delay_ms(250);
// There are different panels for the Chiron with slightly different commands
// So we need to know what we are working with.
// Panel type can be defined otherwise detect it automatically
if (panel_type == AC_panel_unknown) DetectPanelType();
// Signal Board has reset // Signal Board has reset
SendtoTFTLN(AC_msg_main_board_has_reset); SendtoTFTLN(AC_msg_main_board_has_reset);
safe_delay(200);
// Enable leveling and Disable end stops during print // Enable leveling and Disable end stops during print
// as Z home places nozzle above the bed so we need to allow it past the end stops // as Z home places nozzle above the bed so we need to allow it past the end stops
injectCommands_P(AC_cmnd_enable_leveling); injectCommands_P(AC_cmnd_enable_leveling);
// Startup tunes are defined in Tunes.h // Startup tunes are defined in Tunes.h
//PlayTune(BEEPER_PIN, Anycubic_PowerOn, 1); PlayTune(BEEPER_PIN, TERN(AC_DEFAULT_STARTUP_TUNE, Anycubic_PowerOn, GB_PowerOn), 1);
PlayTune(BEEPER_PIN, GB_PowerOn, 1);
#if ACDEBUGLEVEL #if ACDEBUGLEVEL
SERIAL_ECHOLNPAIR("AC Debug Level ", ACDEBUGLEVEL); SERIAL_ECHOLNPAIR("AC Debug Level ", ACDEBUGLEVEL);
#endif #endif
SendtoTFTLN(AC_msg_ready); SendtoTFTLN(AC_msg_ready);
} }
void ChironTFT::DetectPanelType() {
#if AUTO_DETECT_CHIRON_TFT
// Send a query to the TFT
SendtoTFTLN(AC_Test_for_OldPanel); // The panel will respond with 'SXY 480 320'
SendtoTFTLN(AC_Test_for_NewPanel); // the panel will respond with '[0]=0 ' to '[19]=0 '
#endif
}
void ChironTFT::IdleLoop() { void ChironTFT::IdleLoop() {
if (ReadTFTCommand()) { if (ReadTFTCommand()) {
ProcessPanelRequest(); ProcessPanelRequest();
@ -123,15 +139,16 @@ void ChironTFT::MediaEvent(media_event_t event) {
switch (event) { switch (event) {
case AC_media_inserted: case AC_media_inserted:
SendtoTFTLN(AC_msg_sd_card_inserted); SendtoTFTLN(AC_msg_sd_card_inserted);
break; break;
case AC_media_removed: case AC_media_removed:
SendtoTFTLN(AC_msg_sd_card_removed); SendtoTFTLN(AC_msg_sd_card_removed);
break; break;
case AC_media_error: case AC_media_error:
last_error = AC_error_noSD;
SendtoTFTLN(AC_msg_no_sd_card); SendtoTFTLN(AC_msg_no_sd_card);
break; break;
} }
} }
@ -170,8 +187,8 @@ void ChironTFT::FilamentRunout() {
SERIAL_ECHOLNPAIR("FilamentRunout() printer_state ", printer_state); SERIAL_ECHOLNPAIR("FilamentRunout() printer_state ", printer_state);
#endif #endif
// 1 Signal filament out // 1 Signal filament out
last_error = AC_error_filament_runout;
SendtoTFTLN(isPrintingFromMedia() ? AC_msg_filament_out_alert : AC_msg_filament_out_block); SendtoTFTLN(isPrintingFromMedia() ? AC_msg_filament_out_alert : AC_msg_filament_out_block);
//printer_state = AC_printer_filament_out;
PlayTune(BEEPER_PIN, FilamentOut, 1); PlayTune(BEEPER_PIN, FilamentOut, 1);
} }
@ -278,14 +295,23 @@ void ChironTFT::StatusChange(const char * const msg) {
SendtoTFTLN(AC_msg_bed_heating); SendtoTFTLN(AC_msg_bed_heating);
hotbed_state = AC_heater_temp_set; hotbed_state = AC_heater_temp_set;
} }
else if (strcmp_P(msg, MARLIN_msg_EEPROM_version) == 0) {
last_error = AC_error_EEPROM;
}
} }
} }
void ChironTFT::PowerLossRecovery() { void ChironTFT::PowerLossRecovery() {
printer_state = AC_printer_resuming_from_power_outage; // Play tune to notify user we can recover. printer_state = AC_printer_resuming_from_power_outage; // Play tune to notify user we can recover.
last_error = AC_error_powerloss;
PlayTune(BEEPER_PIN, SOS, 1); PlayTune(BEEPER_PIN, SOS, 1);
SERIAL_ECHOLNPGM("Resuming from power outage..."); SERIAL_ECHOLNPGM_P(AC_msg_powerloss_recovery);
SERIAL_ECHOLNPGM("Select SD file then press resume"); }
void ChironTFT::PrintComplete() {
SendtoTFT(AC_msg_print_complete);
printer_state = AC_printer_idle;
setSoftEndstopState(true); // enable endstops
} }
void ChironTFT::SendtoTFT(PGM_P str) { // A helper to print PROGMEM string to the panel void ChironTFT::SendtoTFT(PGM_P str) { // A helper to print PROGMEM string to the panel
@ -319,26 +345,29 @@ bool ChironTFT::ReadTFTCommand() {
command_len++; command_len++;
} }
if (command_ready) { if (command_ready || command_len == MAX_CMND_LEN) {
panel_command[command_len] = 0x00; panel_command[command_len] = '\0';
#if ACDEBUG(AC_ALL) #if ACDEBUG(AC_ALL)
SERIAL_ECHOLNPAIR("< ", panel_command); SERIAL_ECHOLNPAIR("len(",command_len,") < ", panel_command);
#endif
#if ACDEBUG(AC_SOME)
// Ignore status request commands
uint8_t req = atoi(&panel_command[1]);
if (req > 7 && req != 20) {
SERIAL_ECHOLNPAIR("> ", panel_command);
SERIAL_ECHOLNPAIR("printer_state:", printer_state);
}
#endif #endif
command_ready = true;
} }
return command_ready; return command_ready;
} }
int8_t ChironTFT::Findcmndpos(const char * buff, char q) { int8_t ChironTFT::FindToken(char c) {
int8_t pos = 0; int8_t pos = 0;
do { if (buff[pos] == q) return pos; } while (++pos < MAX_CMND_LEN); do {
if (panel_command[pos] == c) {
#if ACDEBUG(AC_INFO)
SERIAL_ECHOLNPAIR("Tpos:", pos, " ", c);
#endif
return pos;
}
} while(++pos < command_len);
#if ACDEBUG(AC_INFO)
SERIAL_ECHOLNPAIR("Not found: ", c);
#endif
return -1; return -1;
} }
@ -352,6 +381,7 @@ void ChironTFT::CheckHeaters() {
faultDuration++; faultDuration++;
if (faultDuration >= AC_HEATER_FAULT_VALIDATION_TIME) { if (faultDuration >= AC_HEATER_FAULT_VALIDATION_TIME) {
SendtoTFTLN(AC_msg_nozzle_temp_abnormal); SendtoTFTLN(AC_msg_nozzle_temp_abnormal);
last_error = AC_error_abnormal_temp_t0;
SERIAL_ECHOLNPAIR("Extruder temp abnormal! : ", temp); SERIAL_ECHOLNPAIR("Extruder temp abnormal! : ", temp);
break; break;
} }
@ -366,6 +396,7 @@ void ChironTFT::CheckHeaters() {
faultDuration++; faultDuration++;
if (faultDuration >= AC_HEATER_FAULT_VALIDATION_TIME) { if (faultDuration >= AC_HEATER_FAULT_VALIDATION_TIME) {
SendtoTFTLN(AC_msg_nozzle_temp_abnormal); SendtoTFTLN(AC_msg_nozzle_temp_abnormal);
last_error = AC_error_abnormal_temp_bed;
SERIAL_ECHOLNPAIR("Bed temp abnormal! : ", temp); SERIAL_ECHOLNPAIR("Bed temp abnormal! : ", temp);
break; break;
} }
@ -396,15 +427,21 @@ void ChironTFT::SendFileList(int8_t startindex) {
SERIAL_ECHOLNPAIR("## SendFileList ## ", startindex); SERIAL_ECHOLNPAIR("## SendFileList ## ", startindex);
#endif #endif
SendtoTFTLN(PSTR("FN ")); SendtoTFTLN(PSTR("FN "));
filenavigator.getFiles(startindex); filenavigator.getFiles(startindex, panel_type, 4);
SendtoTFTLN(PSTR("END")); SendtoTFTLN(PSTR("END"));
} }
void ChironTFT::SelectFile() { void ChironTFT::SelectFile() {
strncpy(selectedfile, panel_command + 4, command_len - 4); if (panel_type == AC_panel_new) {
selectedfile[command_len - 5] = '\0'; strncpy(selectedfile, panel_command + 4, command_len - 3);
selectedfile[command_len - 4] = '\0';
}
else {
strncpy(selectedfile, panel_command + 4, command_len - 4);
selectedfile[command_len - 5] = '\0';
}
#if ACDEBUG(AC_FILE) #if ACDEBUG(AC_FILE)
SERIAL_ECHOLNPAIR_F(" Selected File: ",selectedfile); SERIAL_ECHOLNPAIR(" Selected File: ",selectedfile);
#endif #endif
switch (selectedfile[0]) { switch (selectedfile[0]) {
case '/': // Valid file selected case '/': // Valid file selected
@ -417,6 +454,9 @@ void ChironTFT::SelectFile() {
SendFileList( 0 ); SendFileList( 0 );
break; break;
default: // enter sub folder default: // enter sub folder
// for new panel remove the '.GCO' tag that was added to the end of the path
if (panel_type == AC_panel_new)
selectedfile[strlen(selectedfile) - 4] = '\0';
filenavigator.changeDIR(selectedfile); filenavigator.changeDIR(selectedfile);
SendtoTFTLN(AC_msg_sd_file_open_failed); SendtoTFTLN(AC_msg_sd_file_open_failed);
SendFileList( 0 ); SendFileList( 0 );
@ -424,25 +464,48 @@ void ChironTFT::SelectFile() {
} }
} }
void ChironTFT::InjectCommandandWait(PGM_P cmd) {
//injectCommands_P(cmnd); queue.enqueue_now_P(cmd);
//SERIAL_ECHOLN(PSTR("Inject>"));
}
void ChironTFT::ProcessPanelRequest() { void ChironTFT::ProcessPanelRequest() {
// Break these up into logical blocks // as its easier to navigate than one huge switch case! // Break these up into logical blocks // as its easier to navigate than one huge switch case!
int8_t req = atoi(&panel_command[1]); const int8_t tpos = FindToken('A');
// Panel request are 'A0' - 'A36'
if (tpos != -1) {
const int8_t req = atoi(&panel_command[tpos+1]);
// Information requests A0 - A8 and A33 // Information requests A0 - A8 and A33
if (req <= 8 || req == 33) PanelInfo(req); if (req <= 8 || req == 33) PanelInfo(req);
// Simple Actions A9 - A28 // Simple Actions A9 - A28
else if ( req <= 28) PanelAction(req); else if (req <= 28) PanelAction(req);
// Process Initiation // Process Initiation
else if (req <= 34) PanelProcess(req); else if (req <= 36) PanelProcess(req);
}
else {
#if AUTO_DETECT_CHIRON_TFT
// This may be a response to a panel type detection query
if (panel_type == AC_panel_unknown) {
tpos = FindToken('S'); // old panel will respond to 'SIZE' with 'SXY 480 320'
if (tpos != -1) {
if (panel_command[tpos+1]== 'X' && panel_command[tpos+2]=='Y') {
panel_type = AC_panel_standard;
SERIAL_ECHOLNPGM_P(AC_msg_old_panel_detected);
}
}
else {
tpos = FindToken('['); // new panel will respond to 'J200' with '[0]=0'
if (tpos != -1) {
if (panel_command[tpos+1]== '0' && panel_command[tpos+2]==']') {
panel_type = AC_panel_new;
SERIAL_ECHOLNPGM_P(AC_msg_new_panel_detected);
}
}
}
return;
}
#endif
else SendtoTFTLN(); SendtoTFTLN(); // Ignore unknown requests
}
} }
void ChironTFT::PanelInfo(uint8_t req) { void ChironTFT::PanelInfo(uint8_t req) {
@ -513,7 +576,8 @@ void ChironTFT::PanelInfo(uint8_t req) {
case 33: // A33 Get firmware info case 33: // A33 Get firmware info
SendtoTFT(PSTR("J33 ")); SendtoTFT(PSTR("J33 "));
SendtoTFTLN(PSTR(SHORT_BUILD_VERSION)); // If there is an error recorded, show that instead of the FW version
if (!GetLastError()) SendtoTFTLN(PSTR(SHORT_BUILD_VERSION));
break; break;
} }
} }
@ -567,11 +631,7 @@ void ChironTFT::PanelAction(uint8_t req) {
#if ACDebugLevel >= 1 #if ACDebugLevel >= 1
SERIAL_ECHOLNPAIR_F("Print: ", selectedfile); SERIAL_ECHOLNPAIR_F("Print: ", selectedfile);
#endif #endif
// the card library needs a path starting // but the File api doesn't... printFile(selectedfile);
char file[MAX_PATH_LEN];
file[0] = '/';
strcpy(file + 1, selectedfile);
printFile(file);
SendtoTFTLN(AC_msg_print_from_sd_card); SendtoTFTLN(AC_msg_print_from_sd_card);
} break; } break;
@ -631,29 +691,24 @@ void ChironTFT::PanelAction(uint8_t req) {
} }
break; break;
case 22: // A22 Move Axis A22 Y +10F3000 case 22: { // A22 Move Axis
// Ignore request if printing // The commands have changed on the new panel
if (!isPrinting()) { // Old TFT A22 X -1F1500 A22 X +1F1500
// setAxisPosition_mm() uses pre defined manual feedrates so ignore the feedrate from the panel // New TFT A22 X-1.0 F1500 A22 X1.0 F1500
setSoftEndstopState(true); // enable endstops
float newposition = atof(&panel_command[6]);
// lets just wrap this in a gcode relative nonprint move and let the controller deal with it
// G91 G0 <panel command> G90
if (!isPrinting()) { // Ignore request if printing
char MoveCmnd[30];
sprintf_P(MoveCmnd, PSTR("G91\nG0 %s \nG90"), panel_command+3);
#if ACDEBUG(AC_ACTION) #if ACDEBUG(AC_ACTION)
SERIAL_ECHOLNPAIR("Nudge ", AS_CHAR(panel_command[4]), " axis ", newposition); SERIAL_ECHOLNPAIR("Move: ", MoveCmnd);
#endif #endif
setSoftEndstopState(true); // enable endstops
switch (panel_command[4]) { injectCommands(MoveCmnd);
case 'X': setAxisPosition_mm(getAxisPosition_mm(X) + newposition, X); break;
case 'Y': setAxisPosition_mm(getAxisPosition_mm(Y) + newposition, Y); break;
case 'Z': setAxisPosition_mm(getAxisPosition_mm(Z) + newposition, Z); break;
case 'E': // The only time we get this command is from the filament load/unload menu
// the standard movement is too slow so we will use the load unlod GCode to speed it up a bit
if (canMove(E0) && !commandsInQueue())
injectCommands_P(newposition > 0 ? AC_cmnd_manual_load_filament : AC_cmnd_manual_unload_filament);
break;
}
} }
break; } break;
case 23: // A23 Preheat PLA case 23: // A23 Preheat PLA
// Ignore request if printing // Ignore request if printing
@ -690,7 +745,9 @@ void ChironTFT::PanelAction(uint8_t req) {
break; break;
case 26: // A26 Refresh SD case 26: // A26 Refresh SD
// M22 M21 maybe needed here to reset sd card if (card.isMounted())card.release();
card.mount();
safe_delay(500);
filenavigator.reset(); filenavigator.reset();
break; break;
@ -710,8 +767,8 @@ void ChironTFT::PanelProcess(uint8_t req) {
case 29: { // A29 Read Mesh Point A29 X1 Y1 case 29: { // A29 Read Mesh Point A29 X1 Y1
xy_uint8_t pos; xy_uint8_t pos;
float pos_z; float pos_z;
pos.x = atoi(&panel_command[5]); pos.x = atoi(&panel_command[FindToken('X')+1]);
pos.y = atoi(&panel_command[8]); pos.y = atoi(&panel_command[FindToken('Y')+1]);
pos_z = getMeshPoint(pos); pos_z = getMeshPoint(pos);
SendtoTFT(PSTR("A29V ")); SendtoTFT(PSTR("A29V "));
@ -743,48 +800,60 @@ void ChironTFT::PanelProcess(uint8_t req) {
} }
} break; } break;
case 30: { // A30 Auto leveling case 30: { // A30 Auto leveling
if (panel_command[3] == 'S') { // Start probing if (FindToken('S') != -1) { // Start probing New panel adds spaces..
// Ignore request if printing // Ignore request if printing
if (isPrinting()) if (isPrinting())
SendtoTFTLN(AC_msg_probing_not_allowed); // forbid auto leveling SendtoTFTLN(AC_msg_probing_not_allowed); // forbid auto leveling
else { else {
injectCommands_P(PSTR("G28O\nG29"));
printer_state = AC_printer_probing;
SendtoTFTLN(AC_msg_start_probing); SendtoTFTLN(AC_msg_start_probing);
injectCommands_P(PSTR("G28\nG29"));
printer_state = AC_printer_probing;
} }
} }
else SendtoTFTLN(AC_msg_start_probing); else {
} break; SendtoTFTLN(AC_msg_start_probing); // Just enter levelling menu
}
} break;
case 31: { // A31 Adjust all Probe Points case 31: { // A31 Adjust all Probe Points
switch (panel_command[3]) { // The tokens can occur in different places on the new panel so we need to find it.
case 'C': // Restore and apply original offsets
if (!isPrinting()) { if (FindToken('C') != -1) { // Restore and apply original offsets
injectCommands_P(PSTR("M501\nM420 S1")); if (!isPrinting()) {
selectedmeshpoint.x = selectedmeshpoint.y = 99; injectCommands_P(PSTR("M501\nM420 S1"));
} selectedmeshpoint.x = selectedmeshpoint.y = 99;
break; SERIAL_ECHOLNPGM_P(AC_msg_mesh_changes_abandoned);
case 'D': // Save Z Offset tables and restore leveling state }
if (!isPrinting()) { }
setAxisPosition_mm(1.0,Z);
injectCommands_P(PSTR("M500")); else if (FindToken('D') != -1) { // Save Z Offset tables and restore leveling state
selectedmeshpoint.x = selectedmeshpoint.y = 99; if (!isPrinting()) {
} setAxisPosition_mm(1.0,Z); // Lift nozzle before any further movements are made
break; injectCommands_P(PSTR("M500"));
case 'G': // Get current offset SERIAL_ECHOLNPGM_P(AC_msg_mesh_changes_saved);
SendtoTFT(PSTR("A31V ")); selectedmeshpoint.x = selectedmeshpoint.y = 99;
// When printing use the live z Offset position }
// we will use babystepping to move the print head }
if (isPrinting())
TFTSer.println(live_Zoffset); else if (FindToken('G') != -1) { // Get current offset
else { SendtoTFT(PSTR("A31V "));
TFTSer.println(getZOffset_mm()); // When printing use the live z Offset position
selectedmeshpoint.x = selectedmeshpoint.y = 99; // we will use babystepping to move the print head
} if (isPrinting())
break; TFTSer.println(live_Zoffset);
case 'S': { // Set offset (adjusts all points by value) else {
float Zshift = atof(&panel_command[4]); TFTSer.println(getZOffset_mm());
selectedmeshpoint.x = selectedmeshpoint.y = 99;
}
}
else {
int8_t tokenpos = FindToken('S');
if (tokenpos != -1) { // Set offset (adjusts all points by value)
float Zshift = atof(&panel_command[tokenpos+1]);
setSoftEndstopState(false); // disable endstops setSoftEndstopState(false); // disable endstops
// Allow temporary Z position nudging during print // Allow temporary Z position nudging during print
// From the leveling panel use the all points UI to adjust the print pos. // From the leveling panel use the all points UI to adjust the print pos.
@ -813,6 +882,9 @@ void ChironTFT::PanelProcess(uint8_t req) {
const xy_uint8_t pos { x, y }; const xy_uint8_t pos { x, y };
const float currval = getMeshPoint(pos); const float currval = getMeshPoint(pos);
setMeshPoint(pos, constrain(currval + Zshift, AC_LOWEST_MESHPOINT_VAL, 2)); setMeshPoint(pos, constrain(currval + Zshift, AC_LOWEST_MESHPOINT_VAL, 2));
#if ACDEBUG(AC_INFO)
SERIAL_ECHOLNPAIR("Change mesh point X", x," Y",y ," from ", currval, " to ", getMeshPoint(pos) );
#endif
} }
const float currZOffset = getZOffset_mm(); const float currZOffset = getZOffset_mm();
#if ACDEBUG(AC_INFO) #if ACDEBUG(AC_INFO)
@ -878,9 +950,27 @@ void ChironTFT::PanelProcess(uint8_t req) {
} }
} }
} break; } break;
case 36: // A36 Auto leveling for new TFT bet that was a typo in the panel code!
SendtoTFTLN(AC_msg_start_probing);
break;
} }
} }
} // Anycubic bool ChironTFT::GetLastError() {
switch (last_error) {
case AC_error_abnormal_temp_bed: SendtoTFTLN(AC_msg_error_bed_temp); break;
case AC_error_abnormal_temp_t0: SendtoTFTLN(AC_msg_error_hotend_temp); break;
case AC_error_noSD: SendtoTFTLN(AC_msg_error_sd_card); break;
case AC_error_powerloss: SendtoTFTLN(AC_msg_power_loss); break;
case AC_error_EEPROM: SendtoTFTLN(AC_msg_eeprom_version); break;
case AC_error_filament_runout: SendtoTFTLN(AC_msg_filament_out); break;
default: return false;
}
last_error = AC_error_none;
return true;
}
} // Anycubic namespace
#endif // ANYCUBIC_LCD_CHIRON #endif // ANYCUBIC_LCD_CHIRON

View file

@ -33,23 +33,30 @@
#include "../../../../inc/MarlinConfigPre.h" #include "../../../../inc/MarlinConfigPre.h"
#include "../../ui_api.h" #include "../../ui_api.h"
#if NONE(CHIRON_TFT_STANDARD, CHIRON_TFT_NEW)
#define AUTO_DETECT_CHIRON_TFT 1
#endif
namespace Anycubic { namespace Anycubic {
class ChironTFT { class ChironTFT {
private: #if AUTO_DETECT_CHIRON_TFT
static printer_state_t printer_state; static panel_type_t panel_type;
static paused_state_t pause_state; #else
static heater_state_t hotend_state; static constexpr panel_type_t panel_type = TERN(CHIRON_TFT_NEW, AC_panel_new, AC_panel_standard);
static heater_state_t hotbed_state; #endif
static xy_uint8_t selectedmeshpoint; static last_error_t last_error;
static char panel_command[MAX_CMND_LEN]; static printer_state_t printer_state;
static uint8_t command_len; static paused_state_t pause_state;
static char selectedfile[MAX_PATH_LEN]; static heater_state_t hotend_state;
static float live_Zoffset; static heater_state_t hotbed_state;
static file_menu_t file_menu; static xy_uint8_t selectedmeshpoint;
static char panel_command[MAX_CMND_LEN + 1];
static uint8_t command_len;
static char selectedfile[MAX_PATH_LEN + 1];
static float live_Zoffset;
static file_menu_t file_menu;
public: public:
ChironTFT();
static void Startup(); static void Startup();
static void IdleLoop(); static void IdleLoop();
static void PrinterKilled(PGM_P,PGM_P); static void PrinterKilled(PGM_P,PGM_P);
@ -59,12 +66,13 @@ class ChironTFT {
static void ConfirmationRequest(const char * const ); static void ConfirmationRequest(const char * const );
static void StatusChange(const char * const ); static void StatusChange(const char * const );
static void PowerLossRecovery(); static void PowerLossRecovery();
static void PrintComplete();
private:
static void SendtoTFT(PGM_P); static void SendtoTFT(PGM_P);
static void SendtoTFTLN(PGM_P); static void SendtoTFTLN(PGM_P);
private:
static void DetectPanelType();
static bool ReadTFTCommand(); static bool ReadTFTCommand();
static int8_t Findcmndpos(const char *, char); static int8_t FindToken(char);
static void CheckHeaters(); static void CheckHeaters();
static void SendFileList(int8_t); static void SendFileList(int8_t);
static void SelectFile(); static void SelectFile();
@ -73,8 +81,9 @@ class ChironTFT {
static void PanelInfo(uint8_t); static void PanelInfo(uint8_t);
static void PanelAction(uint8_t); static void PanelAction(uint8_t);
static void PanelProcess(uint8_t); static void PanelProcess(uint8_t);
static bool GetLastError();
}; };
extern ChironTFT Chiron; extern ChironTFT Chiron;
} // Anycubic } // Anycubic namespace

View file

@ -30,7 +30,7 @@
#pragma once #pragma once
#include "../../../../inc/MarlinConfigPre.h" #include "../../../../inc/MarlinConfigPre.h"
//#define ACDEBUGLEVEL 255 //#define ACDEBUGLEVEL 4
#if ACDEBUGLEVEL #if ACDEBUGLEVEL
// Bit-masks for selective debug: // Bit-masks for selective debug:
@ -54,7 +54,7 @@
#define MAX_PATH_LEN 16 * MAX_FOLDER_DEPTH // Maximum number of characters in a SD file path #define MAX_PATH_LEN 16 * MAX_FOLDER_DEPTH // Maximum number of characters in a SD file path
#define AC_HEATER_FAULT_VALIDATION_TIME 5 // number of 1/2 second loops before signalling a heater fault #define AC_HEATER_FAULT_VALIDATION_TIME 5 // number of 1/2 second loops before signalling a heater fault
#define AC_LOWEST_MESHPOINT_VAL Z_PROBE_LOW_POINT // The lowest value you can set for a single mesh point offset #define AC_LOWEST_MESHPOINT_VAL -10 // The lowest value you can set for a single mesh point offset
// TFT panel commands // TFT panel commands
#define AC_msg_sd_card_inserted PSTR("J00") #define AC_msg_sd_card_inserted PSTR("J00")
@ -85,6 +85,18 @@
#define AC_msg_probing_complete PSTR("J25") #define AC_msg_probing_complete PSTR("J25")
#define AC_msg_start_probing PSTR("J26") #define AC_msg_start_probing PSTR("J26")
#define AC_msg_version PSTR("J27") #define AC_msg_version PSTR("J27")
#define AC_msg_mesh_changes_abandoned PSTR("Mesh changes abandoned, previous mesh restored.")
#define AC_msg_mesh_changes_saved PSTR("Mesh changes saved.")
#define AC_msg_old_panel_detected PSTR("Standard TFT panel detected!")
#define AC_msg_new_panel_detected PSTR("New TFT panel detected!")
#define AC_msg_powerloss_recovery PSTR("Resuming from power outage! select the same SD file then press resume")
// Error messages must not contain spaces
#define AC_msg_error_bed_temp PSTR("Abnormal_bed_temp")
#define AC_msg_error_hotend_temp PSTR("Abnormal_hotend_temp")
#define AC_msg_error_sd_card PSTR("SD_card_error")
#define AC_msg_filament_out PSTR("Filament_runout")
#define AC_msg_power_loss PSTR("Power_failure")
#define AC_msg_eeprom_version PSTR("EEPROM_ver_wrong")
#define MARLIN_msg_start_probing PSTR("Probing Point 1/25") #define MARLIN_msg_start_probing PSTR("Probing Point 1/25")
#define MARLIN_msg_probing_failed PSTR("Probing Failed") #define MARLIN_msg_probing_failed PSTR("Probing Failed")
@ -93,13 +105,14 @@
#define MARLIN_msg_print_aborted PSTR("Print Aborted") #define MARLIN_msg_print_aborted PSTR("Print Aborted")
#define MARLIN_msg_extruder_heating PSTR("E Heating...") #define MARLIN_msg_extruder_heating PSTR("E Heating...")
#define MARLIN_msg_bed_heating PSTR("Bed Heating...") #define MARLIN_msg_bed_heating PSTR("Bed Heating...")
#define MARLIN_msg_EEPROM_version PSTR("EEPROM Version Error")
#define MARLIN_msg_nozzle_parked PSTR("Nozzle Parked") #define MARLIN_msg_nozzle_parked PSTR("Nozzle Parked")
#define MARLIN_msg_heater_timeout PSTR("Heater Timeout") #define MARLIN_msg_heater_timeout PSTR("Heater Timeout")
#define MARLIN_msg_reheating PSTR("Reheating...") #define MARLIN_msg_reheating PSTR("Reheating...")
#define MARLIN_msg_reheat_done PSTR("Reheat finished.") #define MARLIN_msg_reheat_done PSTR("Reheat finished.")
#define MARLIN_msg_filament_purging PSTR("Filament Purging...") #define MARLIN_msg_filament_purging PSTR("Filament Purging...")
#define MARLIN_msg_special_pause PSTR("PB") #define MARLIN_msg_special_pause PSTR("PB")
#define AC_cmnd_auto_unload_filament PSTR("M701") // Use Marlin unload routine #define AC_cmnd_auto_unload_filament PSTR("M701") // Use Marlin unload routine
#define AC_cmnd_auto_load_filament PSTR("M702 M0 PB") // Use Marlin load routing then pause for user to clean nozzle #define AC_cmnd_auto_load_filament PSTR("M702 M0 PB") // Use Marlin load routing then pause for user to clean nozzle
@ -108,6 +121,9 @@
#define AC_cmnd_enable_leveling PSTR("M420SV") #define AC_cmnd_enable_leveling PSTR("M420SV")
#define AC_cmnd_power_loss_recovery PSTR("G28XYR5\nG28Z") // Lift, home X and Y then home Z when in 'safe' position #define AC_cmnd_power_loss_recovery PSTR("G28XYR5\nG28Z") // Lift, home X and Y then home Z when in 'safe' position
#define AC_Test_for_OldPanel PSTR("SIZE") // An old panel will respond with 'SXY 480 320' a new panel wont respond.
#define AC_Test_for_NewPanel PSTR("J200") // A new panel will respond with '[0]=0 [1]=0' to '[19]=0 ' an old panel wont respond
namespace Anycubic { namespace Anycubic {
enum heater_state_t : uint8_t { enum heater_state_t : uint8_t {
AC_heater_off, AC_heater_off,
@ -120,6 +136,7 @@ namespace Anycubic {
AC_paused_idle AC_paused_idle
}; };
enum printer_state_t : uint8_t { enum printer_state_t : uint8_t {
AC_printer_booting,
AC_printer_idle, AC_printer_idle,
AC_printer_probing, AC_printer_probing,
AC_printer_printing, AC_printer_printing,
@ -144,4 +161,18 @@ namespace Anycubic {
AC_menu_change_to_file, AC_menu_change_to_file,
AC_menu_change_to_command AC_menu_change_to_command
}; };
} // Anycubic enum panel_type_t : uint8_t {
AC_panel_unknown,
AC_panel_standard,
AC_panel_new
};
enum last_error_t : uint8_t {
AC_error_none,
AC_error_abnormal_temp_t0,
AC_error_abnormal_temp_bed,
AC_error_noSD,
AC_error_powerloss,
AC_error_filament_runout,
AC_error_EEPROM
};
} // Anycubic namespace