trapq: Add new trapq.c file with code for trapezoidal velocity handling
Move the "struct move" code from itersolve.c to new file trapq.c. Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
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374eb98765
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fdbdb3c707
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@ -15,13 +15,14 @@ COMPILE_CMD = ("gcc -Wall -g -O2 -shared -fPIC"
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" -flto -fwhole-program -fno-use-linker-plugin"
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" -o %s %s")
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SOURCE_FILES = [
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'pyhelper.c', 'serialqueue.c', 'stepcompress.c', 'itersolve.c',
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'pyhelper.c', 'serialqueue.c', 'stepcompress.c', 'itersolve.c', 'trapq.c',
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'kin_cartesian.c', 'kin_corexy.c', 'kin_delta.c', 'kin_polar.c',
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'kin_winch.c', 'kin_extruder.c',
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]
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DEST_LIB = "c_helper.so"
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OTHER_FILES = [
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'list.h', 'serialqueue.h', 'stepcompress.h', 'itersolve.h', 'pyhelper.h'
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'list.h', 'serialqueue.h', 'stepcompress.h', 'itersolve.h', 'pyhelper.h',
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'trapq.h',
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]
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defs_stepcompress = """
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@ -43,12 +44,6 @@ defs_stepcompress = """
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"""
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defs_itersolve = """
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struct move *move_alloc(void);
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void move_fill(struct move *m, double print_time
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, double accel_t, double cruise_t, double decel_t
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, double start_pos_x, double start_pos_y, double start_pos_z
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, double axes_d_x, double axes_d_y, double axes_d_z
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, double start_v, double cruise_v, double accel);
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int32_t itersolve_gen_steps(struct stepper_kinematics *sk, struct move *m);
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void itersolve_set_stepcompress(struct stepper_kinematics *sk
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, struct stepcompress *sc, double step_dist);
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@ -58,6 +53,15 @@ defs_itersolve = """
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double itersolve_get_commanded_pos(struct stepper_kinematics *sk);
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"""
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defs_trapq = """
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struct move *move_alloc(void);
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void move_fill(struct move *m, double print_time
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, double accel_t, double cruise_t, double decel_t
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, double start_pos_x, double start_pos_y, double start_pos_z
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, double axes_d_x, double axes_d_y, double axes_d_z
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, double start_v, double cruise_v, double accel);
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"""
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defs_kin_cartesian = """
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struct stepper_kinematics *cartesian_stepper_alloc(char axis);
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"""
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@ -127,7 +131,7 @@ defs_std = """
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defs_all = [
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defs_pyhelper, defs_serialqueue, defs_std,
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defs_stepcompress, defs_itersolve,
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defs_stepcompress, defs_itersolve, defs_trapq,
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defs_kin_cartesian, defs_kin_corexy, defs_kin_delta, defs_kin_polar,
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defs_kin_winch, defs_kin_extruder
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]
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@ -4,99 +4,13 @@
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//
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// This file may be distributed under the terms of the GNU GPLv3 license.
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#include <math.h> // sqrt
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#include <stdlib.h> // malloc
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#include <math.h> // fabs
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#include <string.h> // memset
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#include "compiler.h" // __visible
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#include "itersolve.h" // struct coord
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#include "itersolve.h" // itersolve_gen_steps
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#include "pyhelper.h" // errorf
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#include "stepcompress.h" // queue_append_start
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/****************************************************************
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* Kinematic moves
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****************************************************************/
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struct move * __visible
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move_alloc(void)
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{
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struct move *m = malloc(sizeof(*m));
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memset(m, 0, sizeof(*m));
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return m;
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}
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// Populate a 'struct move' with a velocity trapezoid
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void __visible
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move_fill(struct move *m, double print_time
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, double accel_t, double cruise_t, double decel_t
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, double start_pos_x, double start_pos_y, double start_pos_z
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, double axes_d_x, double axes_d_y, double axes_d_z
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, double start_v, double cruise_v, double accel)
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{
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// Setup velocity trapezoid
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m->print_time = print_time;
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m->move_t = accel_t + cruise_t + decel_t;
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m->accel_t = accel_t;
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m->cruise_t = cruise_t;
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m->cruise_start_d = accel_t * .5 * (cruise_v + start_v);
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m->decel_start_d = m->cruise_start_d + cruise_t * cruise_v;
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// Setup for accel/cruise/decel phases
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m->cruise_v = cruise_v;
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m->accel.c1 = start_v;
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m->accel.c2 = .5 * accel;
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m->decel.c1 = cruise_v;
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m->decel.c2 = -m->accel.c2;
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// Setup for move_get_coord()
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m->start_pos.x = start_pos_x;
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m->start_pos.y = start_pos_y;
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m->start_pos.z = start_pos_z;
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double inv_move_d = 1. / sqrt(axes_d_x*axes_d_x + axes_d_y*axes_d_y
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+ axes_d_z*axes_d_z);
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m->axes_r.x = axes_d_x * inv_move_d;
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m->axes_r.y = axes_d_y * inv_move_d;
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m->axes_r.z = axes_d_z * inv_move_d;
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}
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// Find the distance travel during acceleration/deceleration
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static inline double
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move_eval_accel(struct move_accel *ma, double move_time)
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{
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return (ma->c1 + ma->c2 * move_time) * move_time;
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}
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// Return the distance moved given a time in a move
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inline double
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move_get_distance(struct move *m, double move_time)
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{
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if (unlikely(move_time < m->accel_t))
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// Acceleration phase of move
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return move_eval_accel(&m->accel, move_time);
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move_time -= m->accel_t;
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if (likely(move_time <= m->cruise_t))
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// Cruising phase
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return m->cruise_start_d + m->cruise_v * move_time;
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// Deceleration phase
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move_time -= m->cruise_t;
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return m->decel_start_d + move_eval_accel(&m->decel, move_time);
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}
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// Return the XYZ coordinates given a time in a move
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inline struct coord
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move_get_coord(struct move *m, double move_time)
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{
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double move_dist = move_get_distance(m, move_time);
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return (struct coord) {
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.x = m->start_pos.x + m->axes_r.x * move_dist,
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.y = m->start_pos.y + m->axes_r.y * move_dist,
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.z = m->start_pos.z + m->axes_r.z * move_dist };
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}
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/****************************************************************
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* Iterative solver
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****************************************************************/
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#include "trapq.h" // struct move
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struct timepos {
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double time, position;
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@ -1,35 +1,10 @@
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#ifndef ITERSOLVE_H
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#define ITERSOLVE_H
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#include <stdint.h> // uint32_t
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struct coord {
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double x, y, z;
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};
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struct move_accel {
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double c1, c2;
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};
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struct move {
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double print_time, move_t;
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double accel_t, cruise_t;
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double cruise_start_d, decel_start_d;
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double cruise_v;
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struct move_accel accel, decel;
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struct coord start_pos, axes_r;
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};
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struct move *move_alloc(void);
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void move_fill(struct move *m, double print_time
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, double accel_t, double cruise_t, double decel_t
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, double start_pos_x, double start_pos_y, double start_pos_z
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, double axes_d_x, double axes_d_y, double axes_d_z
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, double start_v, double cruise_v, double accel);
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double move_get_distance(struct move *m, double move_time);
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struct coord move_get_coord(struct move *m, double move_time);
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#include <stdint.h> // int32_t
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struct stepper_kinematics;
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struct move;
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typedef double (*sk_calc_callback)(struct stepper_kinematics *sk, struct move *m
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, double move_time);
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typedef void (*sk_post_callback)(struct stepper_kinematics *sk);
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@ -7,8 +7,9 @@
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#include <stdlib.h> // malloc
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#include <string.h> // memset
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#include "compiler.h" // __visible
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#include "itersolve.h" // move_get_coord
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#include "itersolve.h" // struct stepper_kinematics
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#include "pyhelper.h" // errorf
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#include "trapq.h" // move_get_coord
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static double
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cart_stepper_x_calc_position(struct stepper_kinematics *sk, struct move *m
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@ -8,6 +8,7 @@
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#include <string.h> // memset
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#include "compiler.h" // __visible
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#include "itersolve.h" // struct stepper_kinematics
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#include "trapq.h" // move_get_coord
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static double
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corexy_stepper_plus_calc_position(struct stepper_kinematics *sk, struct move *m
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@ -10,6 +10,7 @@
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#include <string.h> // memset
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#include "compiler.h" // __visible
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#include "itersolve.h" // struct stepper_kinematics
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#include "trapq.h" // move_get_coord
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struct delta_stepper {
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struct stepper_kinematics sk;
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@ -9,6 +9,7 @@
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#include "compiler.h" // __visible
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#include "itersolve.h" // struct stepper_kinematics
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#include "pyhelper.h" // errorf
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#include "trapq.h" // move_get_distance
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static double
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extruder_calc_position(struct stepper_kinematics *sk, struct move *m
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@ -9,6 +9,7 @@
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#include <string.h> // memset
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#include "compiler.h" // __visible
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#include "itersolve.h" // struct stepper_kinematics
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#include "trapq.h" // move_get_coord
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static double
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polar_stepper_radius_calc_position(struct stepper_kinematics *sk, struct move *m
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@ -10,6 +10,7 @@
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#include <string.h> // memset
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#include "compiler.h" // __visible
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#include "itersolve.h" // struct stepper_kinematics
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#include "trapq.h" // move_get_coord
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struct winch_stepper {
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struct stepper_kinematics sk;
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@ -0,0 +1,87 @@
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// Trapezoidal velocity movement queue
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//
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// Copyright (C) 2018-2019 Kevin O'Connor <kevin@koconnor.net>
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//
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// This file may be distributed under the terms of the GNU GPLv3 license.
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#include <math.h> // sqrt
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#include <stdlib.h> // malloc
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#include <string.h> // memset
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#include "compiler.h" // unlikely
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#include "trapq.h" // move_get_coord
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struct move * __visible
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move_alloc(void)
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{
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struct move *m = malloc(sizeof(*m));
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memset(m, 0, sizeof(*m));
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return m;
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}
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// Populate a 'struct move' with a velocity trapezoid
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void __visible
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move_fill(struct move *m, double print_time
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, double accel_t, double cruise_t, double decel_t
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, double start_pos_x, double start_pos_y, double start_pos_z
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, double axes_d_x, double axes_d_y, double axes_d_z
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, double start_v, double cruise_v, double accel)
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{
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// Setup velocity trapezoid
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m->print_time = print_time;
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m->move_t = accel_t + cruise_t + decel_t;
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m->accel_t = accel_t;
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m->cruise_t = cruise_t;
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m->cruise_start_d = accel_t * .5 * (cruise_v + start_v);
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m->decel_start_d = m->cruise_start_d + cruise_t * cruise_v;
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// Setup for accel/cruise/decel phases
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m->cruise_v = cruise_v;
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m->accel.c1 = start_v;
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m->accel.c2 = .5 * accel;
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m->decel.c1 = cruise_v;
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m->decel.c2 = -m->accel.c2;
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// Setup for move_get_coord()
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m->start_pos.x = start_pos_x;
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m->start_pos.y = start_pos_y;
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m->start_pos.z = start_pos_z;
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double inv_move_d = 1. / sqrt(axes_d_x*axes_d_x + axes_d_y*axes_d_y
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+ axes_d_z*axes_d_z);
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m->axes_r.x = axes_d_x * inv_move_d;
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m->axes_r.y = axes_d_y * inv_move_d;
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m->axes_r.z = axes_d_z * inv_move_d;
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}
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// Find the distance travel during acceleration/deceleration
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static inline double
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move_eval_accel(struct move_accel *ma, double move_time)
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{
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return (ma->c1 + ma->c2 * move_time) * move_time;
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}
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// Return the distance moved given a time in a move
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inline double
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move_get_distance(struct move *m, double move_time)
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{
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if (unlikely(move_time < m->accel_t))
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// Acceleration phase of move
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return move_eval_accel(&m->accel, move_time);
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move_time -= m->accel_t;
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if (likely(move_time <= m->cruise_t))
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// Cruising phase
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return m->cruise_start_d + m->cruise_v * move_time;
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// Deceleration phase
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move_time -= m->cruise_t;
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return m->decel_start_d + move_eval_accel(&m->decel, move_time);
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}
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// Return the XYZ coordinates given a time in a move
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inline struct coord
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move_get_coord(struct move *m, double move_time)
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{
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double move_dist = move_get_distance(m, move_time);
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return (struct coord) {
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.x = m->start_pos.x + m->axes_r.x * move_dist,
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.y = m->start_pos.y + m->axes_r.y * move_dist,
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.z = m->start_pos.z + m->axes_r.z * move_dist };
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}
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@ -0,0 +1,30 @@
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#ifndef TRAPQ_H
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#define TRAPQ_H
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struct coord {
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double x, y, z;
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};
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struct move_accel {
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double c1, c2;
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};
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struct move {
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double print_time, move_t;
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double accel_t, cruise_t;
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double cruise_start_d, decel_start_d;
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double cruise_v;
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struct move_accel accel, decel;
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struct coord start_pos, axes_r;
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};
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struct move *move_alloc(void);
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void move_fill(struct move *m, double print_time
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, double accel_t, double cruise_t, double decel_t
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, double start_pos_x, double start_pos_y, double start_pos_z
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, double axes_d_x, double axes_d_y, double axes_d_z
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, double start_v, double cruise_v, double accel);
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double move_get_distance(struct move *m, double move_time);
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struct coord move_get_coord(struct move *m, double move_time);
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#endif // trapq.h
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