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Apply static to Planner class
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@ -71,6 +71,64 @@
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Planner planner;
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// public:
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/**
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* A ring buffer of moves described in steps
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*/
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block_t Planner::block_buffer[BLOCK_BUFFER_SIZE];
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volatile uint8_t Planner::block_buffer_head = 0; // Index of the next block to be pushed
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volatile uint8_t Planner::block_buffer_tail = 0;
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float Planner::max_feedrate[NUM_AXIS]; // Max speeds in mm per minute
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float Planner::axis_steps_per_unit[NUM_AXIS];
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unsigned long Planner::axis_steps_per_sqr_second[NUM_AXIS];
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unsigned long Planner::max_acceleration_units_per_sq_second[NUM_AXIS]; // Use M201 to override by software
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millis_t Planner::min_segment_time;
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float Planner::min_feedrate;
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float Planner::acceleration; // Normal acceleration mm/s^2 DEFAULT ACCELERATION for all printing moves. M204 SXXXX
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float Planner::retract_acceleration; // Retract acceleration mm/s^2 filament pull-back and push-forward while standing still in the other axes M204 TXXXX
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float Planner::travel_acceleration; // Travel acceleration mm/s^2 DEFAULT ACCELERATION for all NON printing moves. M204 MXXXX
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float Planner::max_xy_jerk; // The largest speed change requiring no acceleration
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float Planner::max_z_jerk;
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float Planner::max_e_jerk;
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float Planner::min_travel_feedrate;
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#if ENABLED(AUTO_BED_LEVELING_FEATURE)
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matrix_3x3 Planner::bed_level_matrix; // Transform to compensate for bed level
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#endif
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#if ENABLED(AUTOTEMP)
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float Planner::autotemp_max = 250;
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float Planner::autotemp_min = 210;
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float Planner::autotemp_factor = 0.1;
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bool Planner::autotemp_enabled = false;
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#endif
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// private:
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long Planner::position[NUM_AXIS] = { 0 };
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float Planner::previous_speed[NUM_AXIS];
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float Planner::previous_nominal_speed;
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#if ENABLED(DISABLE_INACTIVE_EXTRUDER)
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uint8_t Planner::g_uc_extruder_last_move[EXTRUDERS] = { 0 };
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#endif // DISABLE_INACTIVE_EXTRUDER
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#ifdef XY_FREQUENCY_LIMIT
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// Old direction bits. Used for speed calculations
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unsigned char Planner::old_direction_bits = 0;
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// Segment times (in µs). Used for speed calculations
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long Planner::axis_segment_time[2][3] = { {MAX_FREQ_TIME + 1, 0, 0}, {MAX_FREQ_TIME + 1, 0, 0} };
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#endif
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/**
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* Class and Instance Methods
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*/
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Planner::Planner() {
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#if ENABLED(AUTO_BED_LEVELING_FEATURE)
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bed_level_matrix.set_to_identity();
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116
Marlin/planner.h
116
Marlin/planner.h
@ -108,27 +108,27 @@ class Planner {
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/**
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* A ring buffer of moves described in steps
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*/
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block_t block_buffer[BLOCK_BUFFER_SIZE];
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volatile uint8_t block_buffer_head = 0; // Index of the next block to be pushed
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volatile uint8_t block_buffer_tail = 0;
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static block_t block_buffer[BLOCK_BUFFER_SIZE];
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static volatile uint8_t block_buffer_head; // Index of the next block to be pushed
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static volatile uint8_t block_buffer_tail;
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float max_feedrate[NUM_AXIS]; // Max speeds in mm per minute
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float axis_steps_per_unit[NUM_AXIS];
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unsigned long axis_steps_per_sqr_second[NUM_AXIS];
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unsigned long max_acceleration_units_per_sq_second[NUM_AXIS]; // Use M201 to override by software
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static float max_feedrate[NUM_AXIS]; // Max speeds in mm per minute
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static float axis_steps_per_unit[NUM_AXIS];
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static unsigned long axis_steps_per_sqr_second[NUM_AXIS];
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static unsigned long max_acceleration_units_per_sq_second[NUM_AXIS]; // Use M201 to override by software
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millis_t min_segment_time;
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float min_feedrate;
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float acceleration; // Normal acceleration mm/s^2 DEFAULT ACCELERATION for all printing moves. M204 SXXXX
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float retract_acceleration; // Retract acceleration mm/s^2 filament pull-back and push-forward while standing still in the other axes M204 TXXXX
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float travel_acceleration; // Travel acceleration mm/s^2 DEFAULT ACCELERATION for all NON printing moves. M204 MXXXX
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float max_xy_jerk; // The largest speed change requiring no acceleration
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float max_z_jerk;
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float max_e_jerk;
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float min_travel_feedrate;
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static millis_t min_segment_time;
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static float min_feedrate;
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static float acceleration; // Normal acceleration mm/s^2 DEFAULT ACCELERATION for all printing moves. M204 SXXXX
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static float retract_acceleration; // Retract acceleration mm/s^2 filament pull-back and push-forward while standing still in the other axes M204 TXXXX
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static float travel_acceleration; // Travel acceleration mm/s^2 DEFAULT ACCELERATION for all NON printing moves. M204 MXXXX
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static float max_xy_jerk; // The largest speed change requiring no acceleration
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static float max_z_jerk;
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static float max_e_jerk;
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static float min_travel_feedrate;
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#if ENABLED(AUTO_BED_LEVELING_FEATURE)
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matrix_3x3 bed_level_matrix; // Transform to compensate for bed level
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static matrix_3x3 bed_level_matrix; // Transform to compensate for bed level
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#endif
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private:
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@ -137,49 +137,57 @@ class Planner {
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* The current position of the tool in absolute steps
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* Reclculated if any axis_steps_per_unit are changed by gcode
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*/
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long position[NUM_AXIS] = { 0 };
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static long position[NUM_AXIS];
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/**
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* Speed of previous path line segment
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*/
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float previous_speed[NUM_AXIS];
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static float previous_speed[NUM_AXIS];
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/**
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* Nominal speed of previous path line segment
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*/
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float previous_nominal_speed;
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static float previous_nominal_speed;
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#if ENABLED(DISABLE_INACTIVE_EXTRUDER)
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/**
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* Counters to manage disabling inactive extruders
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*/
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uint8_t g_uc_extruder_last_move[EXTRUDERS] = { 0 };
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static uint8_t g_uc_extruder_last_move[EXTRUDERS];
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#endif // DISABLE_INACTIVE_EXTRUDER
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#ifdef XY_FREQUENCY_LIMIT
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// Used for the frequency limit
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#define MAX_FREQ_TIME (1000000.0/XY_FREQUENCY_LIMIT)
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#define MAX_FREQ_TIME long(1000000.0/XY_FREQUENCY_LIMIT)
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// Old direction bits. Used for speed calculations
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static unsigned char old_direction_bits = 0;
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static unsigned char old_direction_bits;
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// Segment times (in µs). Used for speed calculations
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static long axis_segment_time[2][3] = { {MAX_FREQ_TIME + 1, 0, 0}, {MAX_FREQ_TIME + 1, 0, 0} };
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static long axis_segment_time[2][3];
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#endif
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public:
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/**
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* Instance Methods
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*/
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Planner();
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void init();
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void reset_acceleration_rates();
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/**
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* Static (class) Methods
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*/
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static void reset_acceleration_rates();
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// Manage fans, paste pressure, etc.
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void check_axes_activity();
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static void check_axes_activity();
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/**
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* Number of moves currently in the planner
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*/
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FORCE_INLINE uint8_t movesplanned() { return BLOCK_MOD(block_buffer_head - block_buffer_tail + BLOCK_BUFFER_SIZE); }
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static FORCE_INLINE uint8_t movesplanned() { return BLOCK_MOD(block_buffer_head - block_buffer_tail + BLOCK_BUFFER_SIZE); }
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#if ENABLED(AUTO_BED_LEVELING_FEATURE) || ENABLED(MESH_BED_LEVELING)
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@ -187,7 +195,7 @@ class Planner {
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/**
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* The corrected position, applying the bed level matrix
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*/
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vector_3 adjusted_position();
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static vector_3 adjusted_position();
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#endif
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/**
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@ -197,7 +205,7 @@ class Planner {
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* feed_rate - (target) speed of the move
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* extruder - target extruder
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*/
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void buffer_line(float x, float y, float z, const float& e, float feed_rate, const uint8_t extruder);
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static void buffer_line(float x, float y, float z, const float& e, float feed_rate, const uint8_t extruder);
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/**
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* Set the planner.position and individual stepper positions.
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@ -208,30 +216,30 @@ class Planner {
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*
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* Clears previous speed values.
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*/
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void set_position(float x, float y, float z, const float& e);
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static void set_position(float x, float y, float z, const float& e);
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#else
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void buffer_line(const float& x, const float& y, const float& z, const float& e, float feed_rate, const uint8_t extruder);
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void set_position(const float& x, const float& y, const float& z, const float& e);
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static void buffer_line(const float& x, const float& y, const float& z, const float& e, float feed_rate, const uint8_t extruder);
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static void set_position(const float& x, const float& y, const float& z, const float& e);
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#endif // AUTO_BED_LEVELING_FEATURE || MESH_BED_LEVELING
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/**
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* Set the E position (mm) of the planner (and the E stepper)
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*/
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void set_e_position(const float& e);
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static void set_e_position(const float& e);
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/**
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* Does the buffer have any blocks queued?
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*/
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FORCE_INLINE bool blocks_queued() { return (block_buffer_head != block_buffer_tail); }
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static FORCE_INLINE bool blocks_queued() { return (block_buffer_head != block_buffer_tail); }
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/**
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* "Discards" the block and "releases" the memory.
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* Called when the current block is no longer needed.
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*/
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FORCE_INLINE void discard_current_block() {
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static FORCE_INLINE void discard_current_block() {
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if (blocks_queued())
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block_buffer_tail = BLOCK_MOD(block_buffer_tail + 1);
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}
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@ -240,7 +248,7 @@ class Planner {
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* The current block. NULL if the buffer is empty.
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* This also marks the block as busy.
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*/
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FORCE_INLINE block_t* get_current_block() {
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static FORCE_INLINE block_t* get_current_block() {
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if (blocks_queued()) {
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block_t* block = &block_buffer[block_buffer_tail];
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block->busy = true;
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@ -251,12 +259,12 @@ class Planner {
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}
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#if ENABLED(AUTOTEMP)
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float autotemp_max = 250;
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float autotemp_min = 210;
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float autotemp_factor = 0.1;
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bool autotemp_enabled = false;
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void getHighESpeed();
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void autotemp_M109();
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static float autotemp_max;
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static float autotemp_min;
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static float autotemp_factor;
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static bool autotemp_enabled;
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static void getHighESpeed();
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static void autotemp_M109();
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#endif
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private:
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@ -264,14 +272,14 @@ class Planner {
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/**
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* Get the index of the next / previous block in the ring buffer
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*/
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FORCE_INLINE int8_t next_block_index(int8_t block_index) { return BLOCK_MOD(block_index + 1); }
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FORCE_INLINE int8_t prev_block_index(int8_t block_index) { return BLOCK_MOD(block_index - 1); }
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static FORCE_INLINE int8_t next_block_index(int8_t block_index) { return BLOCK_MOD(block_index + 1); }
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static FORCE_INLINE int8_t prev_block_index(int8_t block_index) { return BLOCK_MOD(block_index - 1); }
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/**
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* Calculate the distance (not time) it takes to accelerate
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* from initial_rate to target_rate using the given acceleration:
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*/
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FORCE_INLINE float estimate_acceleration_distance(float initial_rate, float target_rate, float acceleration) {
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static FORCE_INLINE float estimate_acceleration_distance(float initial_rate, float target_rate, float acceleration) {
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if (acceleration == 0) return 0; // acceleration was 0, set acceleration distance to 0
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return (target_rate * target_rate - initial_rate * initial_rate) / (acceleration * 2);
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}
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@ -284,7 +292,7 @@ class Planner {
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* This is used to compute the intersection point between acceleration and deceleration
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* in cases where the "trapezoid" has no plateau (i.e., never reaches maximum speed)
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*/
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FORCE_INLINE float intersection_distance(float initial_rate, float final_rate, float acceleration, float distance) {
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static FORCE_INLINE float intersection_distance(float initial_rate, float final_rate, float acceleration, float distance) {
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if (acceleration == 0) return 0; // acceleration was 0, set intersection distance to 0
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return (acceleration * 2 * distance - initial_rate * initial_rate + final_rate * final_rate) / (acceleration * 4);
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}
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@ -294,21 +302,21 @@ class Planner {
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* to reach 'target_velocity' using 'acceleration' within a given
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* 'distance'.
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*/
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FORCE_INLINE float max_allowable_speed(float acceleration, float target_velocity, float distance) {
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static FORCE_INLINE float max_allowable_speed(float acceleration, float target_velocity, float distance) {
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return sqrt(target_velocity * target_velocity - 2 * acceleration * distance);
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}
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void calculate_trapezoid_for_block(block_t* block, float entry_factor, float exit_factor);
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static void calculate_trapezoid_for_block(block_t* block, float entry_factor, float exit_factor);
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void reverse_pass_kernel(block_t* previous, block_t* current, block_t* next);
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void forward_pass_kernel(block_t* previous, block_t* current, block_t* next);
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static void reverse_pass_kernel(block_t* previous, block_t* current, block_t* next);
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static void forward_pass_kernel(block_t* previous, block_t* current, block_t* next);
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void reverse_pass();
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void forward_pass();
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static void reverse_pass();
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static void forward_pass();
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void recalculate_trapezoids();
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static void recalculate_trapezoids();
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void recalculate();
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static void recalculate();
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};
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