Files
OrcaSlicer/src/slic3r/GUI/DeviceCore/DevPrintOptions.h

143 lines
6.0 KiB
C++

#pragma once
#include <map>
#include <nlohmann/json.hpp>
#include "slic3r/Utils/json_diff.hpp"
#include <wx/string.h>
#include "DevDefs.h"
namespace Slic3r {
class MachineObject;
// Identifies a print-detection option tracked in DevPrintOptions::m_detection_list.
enum class PrintOptionEnum
{
AI_Monitoring,
First_Layer_Detection,
Buildplate_Mark_Detection,
Buildplate_Align_Detection,
Auto_Recovery_Detection,
Allow_Prompt_Sound_Detection,
Filament_Tangle_Detection,
Idle_Heating_Protect_Detection,
Purify_Air_At_Print_End,
Snapshot_Detection,
FOD_Check_Detection,
Displacement_Detection,
Smart_Nozzle_Blob_Detection,
};
// State of a single print-detection option.
struct PrintOptionData
{
bool is_support_detect{false}; // some detections have no supporting field
int current_detect_value{-1}; // -1 until parsed; otherwise the reported value
std::string current_detect_sensitivity_value;
time_t detect_hold_start{0}; // suppresses parsed overwrites for a short hold
};
class DevPrintOptions
{
friend class DevPrintOptionsParser;
public:
DevPrintOptions(MachineObject* obj);
// Tri-state for the purify-air-at-print-end firmware option (matches the MQTT air_purification value).
enum class PurifyAirAtPrintEndState : int {
PurifyAirDisable = 0,
PurifyAirByInside = 1,
PurifyAirByOutside = 2,
};
public:
void SetPrintingSpeedLevel(DevPrintingSpeedLevel speed_level);
DevPrintingSpeedLevel GetPrintingSpeedLevel() const { return m_speed_level;}
// Returns the holder for a tracked detection option, or nullptr if not tracked.
PrintOptionData* GetDetectionOption(PrintOptionEnum print_option);
// detect options
int command_xcam_control_ai_monitoring(bool on_off, std::string lvl);
int command_xcam_control_first_layer_inspector(bool on_off, bool print_halt);
int command_xcam_control_buildplate_marker_detector(bool on_off);
int command_xcam_control_auto_recovery_step_loss(bool on_off);
int command_xcam_control_allow_prompt_sound(bool on_off);
int command_xcam_control_filament_tangle_detect(bool on_off);
int command_xcam_control_idelheatingprotect_detector(bool on_off);
// Firmware print-option toggles (each gated on a fun2 capability bit).
int command_xcam_control_build_plate_align_detector(bool on_off);
int command_xcam_control_fod_check(bool on_off);
int command_xcam_control_displacement_detection(bool on_off);
int command_xcam_control_purify_air_at_print_end(int on_off);
int command_smart_nozzle_blob_detect_mode(int mode); // 0=off, 1=on, 2=auto
int command_snapshot_control(int on_off);
int command_xcam_control(std::string module_name, bool on_off, MachineObject *obj ,std::string lvl = "");
// set print option
int command_set_printing_option(bool auto_recovery, MachineObject *obj);
// set prompt sound
int command_set_prompt_sound(bool prompt_sound, MachineObject *obj);
// set fliament tangle detect
int command_set_filament_tangle_detect(bool fliament_tangle_detect, MachineObject *obj);
int command_set_against_continued_heating_mode(bool on_off);
int command_set_purify_air_at_print_end(PurifyAirAtPrintEndState state, MachineObject *obj);
int command_set_snapshot_control(int on_off, MachineObject *obj);
void parse_auto_recovery_step_loss_status(int flag);
void parse_allow_prompt_sound_status(int flag);
void parse_filament_tangle_detect_status(int flag);
// Thin wrappers preserved for existing callers; read from the detection-option map.
bool GetAiMonitoring() const { return m_ai_monitoring_detection.current_detect_value == 1; }
bool GetFirstLayerInspector() const{ return m_first_layer_detection.current_detect_value == 1; }
bool GetBuildplateMarkerDetector() const { return m_buildplate_mark_detection.current_detect_value == 1; }
bool GetAutoRecoveryStepLoss() const { return m_auto_recovery_detection.current_detect_value == 1; }
bool GetAllowPromptSound() const { return m_allow_prompt_sound_detection.current_detect_value == 1; }
bool GetFilamentTangleDetect() const { return m_filament_tangle_detection.current_detect_value == 1; }
int GetIdelHeatingProtectEenabled() const { return m_idel_heating_protect_detection.current_detect_value; }
std::string GetAiMonitoringSensitivity() const { return m_ai_monitoring_detection.current_detect_sensitivity_value; }
private:
// print option
DevPrintingSpeedLevel m_speed_level = SPEED_LEVEL_INVALID;
// detection options (7 existing + 6 newly parsed)
PrintOptionData m_ai_monitoring_detection;
PrintOptionData m_first_layer_detection;
PrintOptionData m_buildplate_mark_detection;
PrintOptionData m_buildplate_align_detection;
PrintOptionData m_auto_recovery_detection;
PrintOptionData m_allow_prompt_sound_detection;
PrintOptionData m_filament_tangle_detection;
PrintOptionData m_idel_heating_protect_detection;
PrintOptionData m_purify_air_at_print_end;
PrintOptionData m_snapshot_detection;
PrintOptionData m_fod_check_detection;
PrintOptionData m_displacement_detection;
PrintOptionData m_smart_nozzle_blob_detection;
std::map<PrintOptionEnum, PrintOptionData*> m_detection_list;
MachineObject* m_obj;/*owner*/
};
class DevPrintOptionsParser
{
public:
static void Parse(DevPrintOptions* opts, const nlohmann::json& print_json);
//V1 stands for parse_json; V2 stands for parse_new_json
static void ParseDetectionV1_0(DevPrintOptions *opts, MachineObject *obj, const nlohmann::json &print_json);
static void ParseDetectionV1_1(DevPrintOptions *opts, MachineObject *obj, const nlohmann::json &print_json, bool enable);
static void ParseDetectionV1_2(DevPrintOptions *opts, MachineObject *obj, const nlohmann::json &print_json);
static void ParseDetectionV2_0(DevPrintOptions *opts, std::string cfg);
static void ParseDetectionV2_1(DevPrintOptions *opts, std::string cfg);
};
} // namespace Slic3r