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grbl-LPC-CoreXY/grbl/planner.h
Sonny Jeon d1037268c8 v1.1c: New sleep mode. Laser mode and other bug fixes. 
- New $SLP sleep mode that will disable spindle, coolant, and stepper
enable pins. Allows users to disable their steppers without having to
alter their settings. A reset is required to exit and re-initializes in
alarm state.

- Laser mode wasn’t updating the spindle PWM correctly (effected
spindle speed overrides) and not checking for modal states either.
Fixed both issues.

- While in laser mode, parking motions are ignored, since the power off
delay with the retract motion would burn the material. It will just
turn off and not move. A restore immediately powers up and resumes. No
delays.

- Changing rpm max and min settings did not update the spindle PWM
calculations. Now fixed.

- Increased default planner buffer from 16 to 17 block. It seems to be
stable, but need to monitor this carefully.

- Removed software debounce routine for limit pins. Obsolete.

- Fixed a couple parking motion bugs. One related to restoring
incorrectly and the other the parking rate wasn’t compatible with the
planner structs.

- Fixed a bug caused by refactoring the critical alarms in a recent
push. Soft limits weren’t invoking a critical alarm.

- Updated the documentation with the new sleep feature and added some
more details to the change summary.
2016-10-11 17:07:44 -06:00

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/*
planner.h - buffers movement commands and manages the acceleration profile plan
Part of Grbl
Copyright (c) 2011-2016 Sungeun K. Jeon for Gnea Research LLC
Copyright (c) 2009-2011 Simen Svale Skogsrud
Grbl 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.
Grbl 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 Grbl. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef planner_h
#define planner_h
// The number of linear motions that can be in the plan at any give time
#ifndef BLOCK_BUFFER_SIZE
#ifdef USE_LINE_NUMBERS
#define BLOCK_BUFFER_SIZE 15
#else
#define BLOCK_BUFFER_SIZE 17
#endif
#endif
// Returned status message from planner.
#define PLAN_OK true
#define PLAN_EMPTY_BLOCK false
// Define planner data condition flags. Used to denote running conditions of a block.
#define PL_COND_FLAG_RAPID_MOTION bit(0)
#define PL_COND_FLAG_SYSTEM_MOTION bit(1) // Single motion. Circumvents planner state. Used by home/park.
#define PL_COND_FLAG_NO_FEED_OVERRIDE bit(2) // Motion does not honor feed override.
#define PL_COND_FLAG_INVERSE_TIME bit(3)
#define PL_COND_FLAG_SPINDLE_CW bit(4)
#define PL_COND_FLAG_SPINDLE_CCW bit(5)
#define PL_COND_FLAG_COOLANT_FLOOD bit(6)
#define PL_COND_FLAG_COOLANT_MIST bit(7)
// This struct stores a linear movement of a g-code block motion with its critical "nominal" values
// are as specified in the source g-code.
typedef struct {
// Fields used by the bresenham algorithm for tracing the line
// NOTE: Used by stepper algorithm to execute the block correctly. Do not alter these values.
uint32_t steps[N_AXIS]; // Step count along each axis
uint32_t step_event_count; // The maximum step axis count and number of steps required to complete this block.
uint8_t direction_bits; // The direction bit set for this block (refers to *_DIRECTION_BIT in config.h)
// Block condition data to ensure correct execution depending on states and overrides.
uint8_t condition; // Block bitflag variable defining block run conditions. Copied from pl_line_data.
#ifdef USE_LINE_NUMBERS
int32_t line_number; // Block line number for real-time reporting. Copied from pl_line_data.
#endif
// Fields used by the motion planner to manage acceleration. Some of these values may be updated
// by the stepper module during execution of special motion cases for replanning purposes.
float entry_speed_sqr; // The current planned entry speed at block junction in (mm/min)^2
float max_entry_speed_sqr; // Maximum allowable entry speed based on the minimum of junction limit and
// neighboring nominal speeds with overrides in (mm/min)^2
float acceleration; // Axis-limit adjusted line acceleration in (mm/min^2). Does not change.
float millimeters; // The remaining distance for this block to be executed in (mm).
// NOTE: This value may be altered by stepper algorithm during execution.
// Stored rate limiting data used by planner when changes occur.
float max_junction_speed_sqr; // Junction entry speed limit based on direction vectors in (mm/min)^2
float rapid_rate; // Axis-limit adjusted maximum rate for this block direction in (mm/min)
float programmed_rate; // Programmed rate of this block (mm/min).
#ifdef VARIABLE_SPINDLE
// Stored spindle speed data used by spindle overrides and resuming methods.
float spindle_speed; // Block spindle speed. Copied from pl_line_data.
#endif
} plan_block_t;
// Planner data prototype. Must be used when passing new motions to the planner.
typedef struct {
float feed_rate; // Desired feed rate for line motion. Value is ignored, if rapid motion.
float spindle_speed; // Desired spindle speed through line motion.
uint8_t condition; // Bitflag variable to indicate planner conditions. See defines above.
#ifdef USE_LINE_NUMBERS
int32_t line_number; // Desired line number to report when executing.
#endif
} plan_line_data_t;
// Initialize and reset the motion plan subsystem
void plan_reset(); // Reset all
void plan_reset_buffer(); // Reset buffer only.
// Add a new linear movement to the buffer. target[N_AXIS] is the signed, absolute target position
// in millimeters. Feed rate specifies the speed of the motion. If feed rate is inverted, the feed
// rate is taken to mean "frequency" and would complete the operation in 1/feed_rate minutes.
uint8_t plan_buffer_line(float *target, plan_line_data_t *pl_data);
// Called when the current block is no longer needed. Discards the block and makes the memory
// availible for new blocks.
void plan_discard_current_block();
// Gets the planner block for the special system motion cases. (Parking/Homing)
plan_block_t *plan_get_system_motion_block();
// Gets the current block. Returns NULL if buffer empty
plan_block_t *plan_get_current_block();
// Called periodically by step segment buffer. Mostly used internally by planner.
uint8_t plan_next_block_index(uint8_t block_index);
// Called by step segment buffer when computing executing block velocity profile.
float plan_get_exec_block_exit_speed_sqr();
// Called by main program during planner calculations and step segment buffer during initialization.
float plan_compute_profile_nominal_speed(plan_block_t *block);
// Re-calculates buffered motions profile parameters upon a motion-based override change.
void plan_update_velocity_profile_parameters();
// Reset the planner position vector (in steps)
void plan_sync_position();
// Reinitialize plan with a partially completed block
void plan_cycle_reinitialize();
// Returns the number of available blocks are in the planner buffer.
uint8_t plan_get_block_buffer_available();
// Returns the number of active blocks are in the planner buffer.
// NOTE: Deprecated. Not used unless classic status reports are enabled in config.h
uint8_t plan_get_block_buffer_count();
// Returns the status of the block ring buffer. True, if buffer is full.
uint8_t plan_check_full_buffer();
void plan_get_planner_mpos(float *target);
#endif
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