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MarlinFirmware/Marlin/src/module/motion.h

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/**
* Marlin 3D Printer Firmware
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* Copyright (c) 2020 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
*
* Based on Sprinter and grbl.
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* Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
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#pragma once
/**
* motion.h
*
* High-level motion commands to feed the planner
* Some of these methods may migrate to the planner class.
*/
#include "../inc/MarlinConfig.h"
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#if IS_SCARA
#include "scara.h"
#endif
// Axis homed and known-position states
extern uint8_t axis_homed, axis_known_position;
constexpr uint8_t xyz_bits = _BV(X_AXIS) | _BV(Y_AXIS) | _BV(Z_AXIS);
FORCE_INLINE bool no_axes_homed() { return !axis_homed; }
FORCE_INLINE bool all_axes_homed() { return (axis_homed & xyz_bits) == xyz_bits; }
FORCE_INLINE bool all_axes_known() { return (axis_known_position & xyz_bits) == xyz_bits; }
FORCE_INLINE void set_all_unhomed() { axis_homed = 0; }
FORCE_INLINE void set_all_unknown() { axis_known_position = 0; }
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FORCE_INLINE bool homing_needed() {
return !(
#if ENABLED(HOME_AFTER_DEACTIVATE)
all_axes_known()
#else
all_axes_homed()
#endif
);
}
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// Error margin to work around float imprecision
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constexpr float fslop = 0.0001;
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extern bool relative_mode;
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extern xyze_pos_t current_position, // High-level current tool position
destination; // Destination for a move
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// G60/G61 Position Save and Return
#if SAVED_POSITIONS
extern uint8_t saved_slots[(SAVED_POSITIONS + 7) >> 3];
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extern xyz_pos_t stored_position[SAVED_POSITIONS];
#endif
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// Scratch space for a cartesian result
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extern xyz_pos_t cartes;
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// Until kinematics.cpp is created, declare this here
#if IS_KINEMATIC
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extern abc_pos_t delta;
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#endif
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#if HAS_ABL_NOT_UBL
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extern float xy_probe_feedrate_mm_s;
#define XY_PROBE_FEEDRATE_MM_S xy_probe_feedrate_mm_s
#elif defined(XY_PROBE_SPEED)
#define XY_PROBE_FEEDRATE_MM_S MMM_TO_MMS(XY_PROBE_SPEED)
#else
#define XY_PROBE_FEEDRATE_MM_S PLANNER_XY_FEEDRATE()
#endif
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#if ENABLED(Z_SAFE_HOMING)
constexpr xy_float_t safe_homing_xy = { Z_SAFE_HOMING_X_POINT, Z_SAFE_HOMING_Y_POINT };
#endif
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/**
* Feed rates are often configured with mm/m
* but the planner and stepper like mm/s units.
*/
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extern const feedRate_t homing_feedrate_mm_s[XYZ];
FORCE_INLINE feedRate_t homing_feedrate(const AxisEnum a) { return pgm_read_float(&homing_feedrate_mm_s[a]); }
feedRate_t get_homing_bump_feedrate(const AxisEnum axis);
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extern feedRate_t feedrate_mm_s;
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/**
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* Feedrate scaling
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*/
extern int16_t feedrate_percentage;
// The active extruder (tool). Set with T<extruder> command.
#if EXTRUDERS > 1
extern uint8_t active_extruder;
#else
constexpr uint8_t active_extruder = 0;
#endif
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#if ENABLED(LCD_SHOW_E_TOTAL)
extern float e_move_accumulator;
#endif
FORCE_INLINE float pgm_read_any(const float *p) { return pgm_read_float(p); }
FORCE_INLINE signed char pgm_read_any(const signed char *p) { return pgm_read_byte(p); }
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#define XYZ_DEFS(T, NAME, OPT) \
extern const XYZval<T> NAME##_P; \
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FORCE_INLINE T NAME(AxisEnum axis) { return pgm_read_any(&NAME##_P[axis]); }
XYZ_DEFS(float, base_min_pos, MIN_POS);
XYZ_DEFS(float, base_max_pos, MAX_POS);
XYZ_DEFS(float, base_home_pos, HOME_POS);
XYZ_DEFS(float, max_length, MAX_LENGTH);
XYZ_DEFS(float, home_bump_mm, HOME_BUMP_MM);
XYZ_DEFS(signed char, home_dir, HOME_DIR);
#if HAS_WORKSPACE_OFFSET
void update_workspace_offset(const AxisEnum axis);
#else
#define update_workspace_offset(x) NOOP
#endif
#if HAS_HOTEND_OFFSET
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extern xyz_pos_t hotend_offset[HOTENDS];
void reset_hotend_offsets();
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#elif HOTENDS
constexpr xyz_pos_t hotend_offset[HOTENDS] = { { 0 } };
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#else
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constexpr xyz_pos_t hotend_offset[1] = { { 0 } };
#endif
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typedef struct { xyz_pos_t min, max; } axis_limits_t;
#if HAS_SOFTWARE_ENDSTOPS
extern bool soft_endstops_enabled;
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extern axis_limits_t soft_endstop;
void apply_motion_limits(xyz_pos_t &target);
void update_software_endstops(const AxisEnum axis
#if HAS_HOTEND_OFFSET
, const uint8_t old_tool_index=0, const uint8_t new_tool_index=0
#endif
);
#else
constexpr bool soft_endstops_enabled = false;
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//constexpr axis_limits_t soft_endstop = {
// { X_MIN_POS, Y_MIN_POS, Z_MIN_POS },
// { X_MAX_POS, Y_MAX_POS, Z_MAX_POS } };
#define apply_motion_limits(V) NOOP
#define update_software_endstops(...) NOOP
#endif
void report_real_position();
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void report_current_position();
void report_current_position_projected();
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void get_cartesian_from_steppers();
void set_current_from_steppers_for_axis(const AxisEnum axis);
/**
* sync_plan_position
*
* Set the planner/stepper positions directly from current_position with
* no kinematic translation. Used for homing axes and cartesian/core syncing.
*/
void sync_plan_position();
void sync_plan_position_e();
/**
* Move the planner to the current position from wherever it last moved
* (or from wherever it has been told it is located).
*/
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void line_to_current_position(const feedRate_t &fr_mm_s=feedrate_mm_s);
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void prepare_line_to_destination();
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void _internal_move_to_destination(const feedRate_t &fr_mm_s=0.0f
#if IS_KINEMATIC
, const bool is_fast=false
#endif
);
inline void prepare_internal_move_to_destination(const feedRate_t &fr_mm_s=0.0f) {
_internal_move_to_destination(fr_mm_s);
}
#if IS_KINEMATIC
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void prepare_fast_move_to_destination(const feedRate_t &scaled_fr_mm_s=MMS_SCALED(feedrate_mm_s));
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inline void prepare_internal_fast_move_to_destination(const feedRate_t &fr_mm_s=0.0f) {
_internal_move_to_destination(fr_mm_s, true);
}
#endif
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/**
* Blocking movement and shorthand functions
*/
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void do_blocking_move_to(const float rx, const float ry, const float rz, const feedRate_t &fr_mm_s=0.0f);
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void do_blocking_move_to(const xy_pos_t &raw, const feedRate_t &fr_mm_s=0.0f);
void do_blocking_move_to(const xyz_pos_t &raw, const feedRate_t &fr_mm_s=0.0f);
void do_blocking_move_to(const xyze_pos_t &raw, const feedRate_t &fr_mm_s=0.0f);
void do_blocking_move_to_x(const float &rx, const feedRate_t &fr_mm_s=0.0f);
void do_blocking_move_to_y(const float &ry, const feedRate_t &fr_mm_s=0.0f);
void do_blocking_move_to_z(const float &rz, const feedRate_t &fr_mm_s=0.0f);
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void do_blocking_move_to_xy(const float &rx, const float &ry, const feedRate_t &fr_mm_s=0.0f);
void do_blocking_move_to_xy(const xy_pos_t &raw, const feedRate_t &fr_mm_s=0.0f);
FORCE_INLINE void do_blocking_move_to_xy(const xyz_pos_t &raw, const feedRate_t &fr_mm_s=0.0f) { do_blocking_move_to_xy(xy_pos_t(raw), fr_mm_s); }
FORCE_INLINE void do_blocking_move_to_xy(const xyze_pos_t &raw, const feedRate_t &fr_mm_s=0.0f) { do_blocking_move_to_xy(xy_pos_t(raw), fr_mm_s); }
void do_blocking_move_to_xy_z(const xy_pos_t &raw, const float &z, const feedRate_t &fr_mm_s=0.0f);
FORCE_INLINE void do_blocking_move_to_xy_z(const xyz_pos_t &raw, const float &z, const feedRate_t &fr_mm_s=0.0f) { do_blocking_move_to_xy_z(xy_pos_t(raw), z, fr_mm_s); }
FORCE_INLINE void do_blocking_move_to_xy_z(const xyze_pos_t &raw, const float &z, const feedRate_t &fr_mm_s=0.0f) { do_blocking_move_to_xy_z(xy_pos_t(raw), z, fr_mm_s); }
void remember_feedrate_and_scaling();
void remember_feedrate_scaling_off();
void restore_feedrate_and_scaling();
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//
// Homing
//
uint8_t axes_need_homing(uint8_t axis_bits=0x07);
bool axis_unhomed_error(uint8_t axis_bits=0x07);
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#if ENABLED(NO_MOTION_BEFORE_HOMING)
#define MOTION_CONDITIONS (IsRunning() && !axis_unhomed_error())
#else
#define MOTION_CONDITIONS IsRunning()
#endif
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void set_axis_is_at_home(const AxisEnum axis);
void set_axis_is_not_at_home(const AxisEnum axis);
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void homeaxis(const AxisEnum axis);
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/**
* Workspace offsets
*/
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#if HAS_HOME_OFFSET || HAS_POSITION_SHIFT
#if HAS_HOME_OFFSET
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extern xyz_pos_t home_offset;
#endif
#if HAS_POSITION_SHIFT
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extern xyz_pos_t position_shift;
#endif
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#if HAS_HOME_OFFSET && HAS_POSITION_SHIFT
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extern xyz_pos_t workspace_offset;
#define _WS workspace_offset
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#elif HAS_HOME_OFFSET
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#define _WS home_offset
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#else
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#define _WS position_shift
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#endif
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#define NATIVE_TO_LOGICAL(POS, AXIS) ((POS) + _WS[AXIS])
#define LOGICAL_TO_NATIVE(POS, AXIS) ((POS) - _WS[AXIS])
FORCE_INLINE void toLogical(xy_pos_t &raw) { raw += _WS; }
FORCE_INLINE void toLogical(xyz_pos_t &raw) { raw += _WS; }
FORCE_INLINE void toLogical(xyze_pos_t &raw) { raw += _WS; }
FORCE_INLINE void toNative(xy_pos_t &raw) { raw -= _WS; }
FORCE_INLINE void toNative(xyz_pos_t &raw) { raw -= _WS; }
FORCE_INLINE void toNative(xyze_pos_t &raw) { raw -= _WS; }
#else
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#define NATIVE_TO_LOGICAL(POS, AXIS) (POS)
#define LOGICAL_TO_NATIVE(POS, AXIS) (POS)
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FORCE_INLINE void toLogical(xy_pos_t&) {}
FORCE_INLINE void toLogical(xyz_pos_t&) {}
FORCE_INLINE void toLogical(xyze_pos_t&) {}
FORCE_INLINE void toNative(xy_pos_t&) {}
FORCE_INLINE void toNative(xyz_pos_t&) {}
FORCE_INLINE void toNative(xyze_pos_t&) {}
#endif
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#define LOGICAL_X_POSITION(POS) NATIVE_TO_LOGICAL(POS, X_AXIS)
#define LOGICAL_Y_POSITION(POS) NATIVE_TO_LOGICAL(POS, Y_AXIS)
#define LOGICAL_Z_POSITION(POS) NATIVE_TO_LOGICAL(POS, Z_AXIS)
#define RAW_X_POSITION(POS) LOGICAL_TO_NATIVE(POS, X_AXIS)
#define RAW_Y_POSITION(POS) LOGICAL_TO_NATIVE(POS, Y_AXIS)
#define RAW_Z_POSITION(POS) LOGICAL_TO_NATIVE(POS, Z_AXIS)
/**
* position_is_reachable family of functions
*/
#if IS_KINEMATIC // (DELTA or SCARA)
#if HAS_SCARA_OFFSET
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extern abc_pos_t scara_home_offset; // A and B angular offsets, Z mm offset
#endif
// Return true if the given point is within the printable area
inline bool position_is_reachable(const float &rx, const float &ry, const float inset=0) {
#if ENABLED(DELTA)
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return HYPOT2(rx, ry) <= sq(DELTA_PRINTABLE_RADIUS - inset + fslop);
#elif IS_SCARA
const float R2 = HYPOT2(rx - SCARA_OFFSET_X, ry - SCARA_OFFSET_Y);
return (
R2 <= sq(L1 + L2) - inset
#if MIDDLE_DEAD_ZONE_R > 0
&& R2 >= sq(float(MIDDLE_DEAD_ZONE_R))
#endif
);
#endif
}
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inline bool position_is_reachable(const xy_pos_t &pos, const float inset=0) {
return position_is_reachable(pos.x, pos.y, inset);
}
#else // CARTESIAN
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// Return true if the given position is within the machine bounds.
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inline bool position_is_reachable(const float &rx, const float &ry) {
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if (!WITHIN(ry, Y_MIN_POS - fslop, Y_MAX_POS + fslop)) return false;
#if ENABLED(DUAL_X_CARRIAGE)
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if (active_extruder)
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return WITHIN(rx, X2_MIN_POS - fslop, X2_MAX_POS + fslop);
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else
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return WITHIN(rx, X1_MIN_POS - fslop, X1_MAX_POS + fslop);
#else
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return WITHIN(rx, X_MIN_POS - fslop, X_MAX_POS + fslop);
#endif
}
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inline bool position_is_reachable(const xy_pos_t &pos) { return position_is_reachable(pos.x, pos.y); }
#endif // CARTESIAN
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/**
* Duplication mode
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*/
#if HAS_DUPLICATION_MODE
extern bool extruder_duplication_enabled, // Used in Dual X mode 2
mirrored_duplication_mode; // Used in Dual X mode 3
#if ENABLED(MULTI_NOZZLE_DUPLICATION)
extern uint8_t duplication_e_mask;
#endif
#endif
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/**
* Dual X Carriage
*/
#if ENABLED(DUAL_X_CARRIAGE)
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enum DualXMode : char {
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DXC_FULL_CONTROL_MODE,
DXC_AUTO_PARK_MODE,
DXC_DUPLICATION_MODE,
DXC_MIRRORED_MODE
};
extern DualXMode dual_x_carriage_mode;
extern float inactive_extruder_x_pos, // Used in mode 0 & 1
duplicate_extruder_x_offset; // Used in mode 2 & 3
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extern xyz_pos_t raised_parked_position; // Used in mode 1
extern bool active_extruder_parked; // Used in mode 1, 2 & 3
extern millis_t delayed_move_time; // Used in mode 1
extern int16_t duplicate_extruder_temp_offset; // Used in mode 2 & 3
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FORCE_INLINE bool dxc_is_duplicating() { return dual_x_carriage_mode >= DXC_DUPLICATION_MODE; }
float x_home_pos(const int extruder);
FORCE_INLINE int x_home_dir(const uint8_t extruder) { return extruder ? X2_HOME_DIR : X_HOME_DIR; }
#elif ENABLED(MULTI_NOZZLE_DUPLICATION)
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enum DualXMode : char {
DXC_DUPLICATION_MODE = 2
};
#endif
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#if HAS_M206_COMMAND
void set_home_offset(const AxisEnum axis, const float v);
#endif