PrusaSlicer-NonPlainar/xs/src/libslic3r/GCode/Analyzer.hpp

228 lines
6.2 KiB
C++
Raw Normal View History

#ifndef slic3r_GCode_Analyzer_hpp_
#define slic3r_GCode_Analyzer_hpp_
#include "../libslic3r.h"
#include "../PrintConfig.hpp"
#include "../ExtrusionEntity.hpp"
#include "Point.hpp"
#include "GCodeReader.hpp"
namespace Slic3r {
2018-01-17 09:39:05 +00:00
class Print;
class GCodeAnalyzer
{
public:
static const std::string Extrusion_Role_Tag;
static const std::string Mm3_Per_Mm_Tag;
static const std::string Width_Tag;
static const std::string Height_Tag;
static const double Default_mm3_per_mm;
static const float Default_Width;
static const float Default_Height;
enum EUnits : unsigned char
{
Millimeters,
Inches
};
enum EAxis : unsigned char
{
X,
Y,
Z,
E,
Num_Axis
};
enum EPositioningType : unsigned char
{
Absolute,
Relative
};
struct Metadata
{
ExtrusionRole extrusion_role;
unsigned int extruder_id;
double mm3_per_mm;
2018-01-16 13:59:06 +00:00
float width; // mm
float height; // mm
float feedrate; // mm/s
Metadata();
Metadata(ExtrusionRole extrusion_role, unsigned int extruder_id, double mm3_per_mm, float width, float height, float feedrate);
bool operator != (const Metadata& other) const;
};
struct GCodeMove
{
enum EType : unsigned char
{
Noop,
Retract,
Unretract,
Tool_change,
Move,
Extrude,
Num_Types
};
EType type;
Metadata data;
Pointf3 start_position;
Pointf3 end_position;
float delta_extruder;
GCodeMove(EType type, ExtrusionRole extrusion_role, unsigned int extruder_id, double mm3_per_mm, float width, float height, float feedrate, const Pointf3& start_position, const Pointf3& end_position, float delta_extruder);
GCodeMove(EType type, const Metadata& data, const Pointf3& start_position, const Pointf3& end_position, float delta_extruder);
};
typedef std::vector<GCodeMove> GCodeMovesList;
typedef std::map<GCodeMove::EType, GCodeMovesList> TypeToMovesMap;
private:
struct State
{
EUnits units;
EPositioningType positioning_xyz_type;
EPositioningType positioning_e_type;
Metadata data;
Pointf3 start_position;
float start_extrusion;
float position[Num_Axis];
};
private:
State m_state;
GCodeReader m_parser;
TypeToMovesMap m_moves_map;
// The output of process_layer()
std::string m_process_output;
public:
GCodeAnalyzer();
// Reinitialize the analyzer
void reset();
// Adds the gcode contained in the given string to the analysis and returns it after removing the workcodes
const std::string& process_gcode(const std::string& gcode);
// Calculates all data needed for gcode visualization
void calc_gcode_preview_data(Print& print);
static bool is_valid_extrusion_role(ExtrusionRole role);
private:
// Processes the given gcode line
void _process_gcode_line(GCodeReader& reader, const GCodeReader::GCodeLine& line);
// Move
void _processG1(const GCodeReader::GCodeLine& line);
// Firmware controlled Retract
void _processG22(const GCodeReader::GCodeLine& line);
// Firmware controlled Unretract
void _processG23(const GCodeReader::GCodeLine& line);
// Set to Absolute Positioning
void _processG90(const GCodeReader::GCodeLine& line);
// Set to Relative Positioning
void _processG91(const GCodeReader::GCodeLine& line);
// Set Position
void _processG92(const GCodeReader::GCodeLine& line);
// Set extruder to absolute mode
void _processM82(const GCodeReader::GCodeLine& line);
// Set extruder to relative mode
void _processM83(const GCodeReader::GCodeLine& line);
// Processes T line (Select Tool)
void _processT(const GCodeReader::GCodeLine& line);
// Processes the tags
// Returns true if any tag has been processed
bool _process_tags(const GCodeReader::GCodeLine& line);
// Processes extrusion role tag
void _process_extrusion_role_tag(const std::string& comment, size_t pos);
// Processes mm3_per_mm tag
void _process_mm3_per_mm_tag(const std::string& comment, size_t pos);
// Processes width tag
void _process_width_tag(const std::string& comment, size_t pos);
// Processes height tag
void _process_height_tag(const std::string& comment, size_t pos);
void _set_units(EUnits units);
EUnits _get_units() const;
void _set_positioning_xyz_type(EPositioningType type);
EPositioningType _get_positioning_xyz_type() const;
void _set_positioning_e_type(EPositioningType type);
EPositioningType _get_positioning_e_type() const;
void _set_extrusion_role(ExtrusionRole extrusion_role);
ExtrusionRole _get_extrusion_role() const;
void _set_extruder_id(unsigned int id);
unsigned int _get_extruder_id() const;
void _set_mm3_per_mm(double value);
double _get_mm3_per_mm() const;
void _set_width(float width);
float _get_width() const;
void _set_height(float height);
float _get_height() const;
void _set_feedrate(float feedrate_mm_sec);
float _get_feedrate() const;
void _set_axis_position(EAxis axis, float position);
float _get_axis_position(EAxis axis) const;
// Sets axes position to zero
void _reset_axes_position();
void _set_start_position(const Pointf3& position);
const Pointf3& _get_start_position() const;
void _set_start_extrusion(float extrusion);
float _get_start_extrusion() const;
float _get_delta_extrusion() const;
// Returns current xyz position (from m_state.position[])
Pointf3 _get_end_position() const;
// Adds a new move with the given data
void _store_move(GCodeMove::EType type);
// Checks if the given int is a valid extrusion role (contained into enum ExtrusionRole)
bool _is_valid_extrusion_role(int value) const;
void _calc_gcode_preview_extrusion_layers(Print& print);
void _calc_gcode_preview_travel(Print& print);
void _calc_gcode_preview_retractions(Print& print);
void _calc_gcode_preview_unretractions(Print& print);
};
} // namespace Slic3r
#endif /* slic3r_GCode_Analyzer_hpp_ */