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mirror of https://github.com/MarlinFirmware/Marlin.git synced 2024-11-23 12:04:19 +00:00

Apply _AXIS macro

This commit is contained in:
Scott Lahteine 2018-05-13 03:44:24 -05:00
parent 99ecdf59af
commit 08e36e264e
10 changed files with 20 additions and 20 deletions

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@ -156,8 +156,6 @@ void manage_inactivity(const bool ignore_stepper_queue=false);
/**
* The axis order in all axis related arrays is X, Y, Z, E
*/
#define _AXIS(AXIS) AXIS ##_AXIS
void enable_all_steppers();
void disable_e_stepper(const uint8_t e);
void disable_e_steppers();

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@ -29,6 +29,8 @@
#define ABC 3
#define XYZ 3
#define _AXIS(A) (A##_AXIS)
#define _XMIN_ 100
#define _YMIN_ 200
#define _ZMIN_ 300

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@ -293,7 +293,7 @@ int32_t I2CPositionEncoder::get_axis_error_steps(const bool report) {
error = (encoderCountInStepperTicksScaled - target);
//suppress discontinuities (might be caused by bad I2C readings...?)
bool suppressOutput = (ABS(error - errorPrev) > 100);
const bool suppressOutput = (ABS(error - errorPrev) > 100);
if (report) {
SERIAL_ECHO(axis_codes[encoderAxis]);

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@ -362,7 +362,7 @@ float bilinear_z_offset(const float raw[XYZ]) {
#if IS_CARTESIAN && DISABLED(SEGMENT_LEVELED_MOVES)
#define CELL_INDEX(A,V) ((V - bilinear_start[A##_AXIS]) * ABL_BG_FACTOR(A##_AXIS))
#define CELL_INDEX(A,V) ((V - bilinear_start[_AXIS(A)]) * ABL_BG_FACTOR(_AXIS(A)))
/**
* Prepare a bilinear-leveled linear move on Cartesian,

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@ -151,8 +151,8 @@ void GcodeSuite::M912() {
*/
#if ENABLED(HYBRID_THRESHOLD)
void GcodeSuite::M913() {
#define TMC_SAY_PWMTHRS(P,Q) tmc_get_pwmthrs(stepper##Q, TMC_##Q, planner.axis_steps_per_mm[P##_AXIS])
#define TMC_SET_PWMTHRS(P,Q) tmc_set_pwmthrs(stepper##Q, value, planner.axis_steps_per_mm[P##_AXIS])
#define TMC_SAY_PWMTHRS(A,Q) tmc_get_pwmthrs(stepper##Q, TMC_##Q, planner.axis_steps_per_mm[_AXIS(A)])
#define TMC_SET_PWMTHRS(A,Q) tmc_set_pwmthrs(stepper##Q, value, planner.axis_steps_per_mm[_AXIS(A)])
#define TMC_SAY_PWMTHRS_E(E) do{ const uint8_t extruder = E; tmc_get_pwmthrs(stepperE##E, TMC_E##E, planner.axis_steps_per_mm[E_AXIS_N]); }while(0)
#define TMC_SET_PWMTHRS_E(E) do{ const uint8_t extruder = E; tmc_set_pwmthrs(stepperE##E, value, planner.axis_steps_per_mm[E_AXIS_N]); }while(0)

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@ -77,7 +77,7 @@
#if HAS_TRINAMIC
#include "stepper_indirection.h"
#include "../feature/tmc_util.h"
#define TMC_GET_PWMTHRS(P,Q) _tmc_thrs(stepper##Q.microsteps(), stepper##Q.TPWMTHRS(), planner.axis_steps_per_mm[P##_AXIS])
#define TMC_GET_PWMTHRS(A,Q) _tmc_thrs(stepper##Q.microsteps(), stepper##Q.TPWMTHRS(), planner.axis_steps_per_mm[_AXIS(A)])
#endif
#if ENABLED(FWRETRACT)
@ -1329,7 +1329,7 @@ void MarlinSettings::postprocess() {
#endif
#if ENABLED(HYBRID_THRESHOLD)
#define TMC_SET_PWMTHRS(P,Q) tmc_set_pwmthrs(stepper##Q, tmc_hybrid_threshold[TMC_##Q], planner.axis_steps_per_mm[P##_AXIS])
#define TMC_SET_PWMTHRS(A,Q) tmc_set_pwmthrs(stepper##Q, tmc_hybrid_threshold[TMC_##Q], planner.axis_steps_per_mm[_AXIS(A)])
uint32_t tmc_hybrid_threshold[TMC_AXES];
EEPROM_READ(tmc_hybrid_threshold);
if (!validating) {

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@ -1247,7 +1247,7 @@ void homeaxis(const AxisEnum axis) {
if (axis != Z_AXIS) { BUZZ(100, 880); return; }
#else
#define CAN_HOME(A) \
(axis == A##_AXIS && ((A##_MIN_PIN > -1 && A##_HOME_DIR < 0) || (A##_MAX_PIN > -1 && A##_HOME_DIR > 0)))
(axis == _AXIS(A) && ((A##_MIN_PIN > -1 && A##_HOME_DIR < 0) || (A##_MAX_PIN > -1 && A##_HOME_DIR > 0)))
if (!CAN_HOME(X) && !CAN_HOME(Y) && !CAN_HOME(Z)) return;
#endif

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@ -189,7 +189,7 @@ void clean_up_after_endstop_or_probe_move();
void set_axis_is_at_home(const AxisEnum axis);
void homeaxis(const AxisEnum axis);
#define HOMEAXIS(LETTER) homeaxis(LETTER##_AXIS)
#define HOMEAXIS(A) homeaxis(_AXIS(A))
#if ENABLED(SENSORLESS_HOMING)
void sensorless_homing_per_axis(const AxisEnum axis, const bool enable=true);

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@ -2212,11 +2212,11 @@ void Planner::buffer_segment(const float &a, const float &b, const float &c, con
// Always split the first move into two (if not homing or probing)
if (!has_blocks_queued()) {
#define _BETWEEN(A) (position[A##_AXIS] + target[A##_AXIS]) >> 1
#define _BETWEEN(A) (position[_AXIS(A)] + target[_AXIS(A)]) >> 1
const int32_t between[ABCE] = { _BETWEEN(A), _BETWEEN(B), _BETWEEN(C), _BETWEEN(E) };
#if HAS_POSITION_FLOAT
#define _BETWEEN_F(A) (position_float[A##_AXIS] + target_float[A##_AXIS]) * 0.5
#define _BETWEEN_F(A) (position_float[_AXIS(A)] + target_float[_AXIS(A)]) * 0.5
const float between_float[ABCE] = { _BETWEEN_F(A), _BETWEEN_F(B), _BETWEEN_F(C), _BETWEEN_F(E) };
#endif

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@ -182,20 +182,20 @@ volatile int32_t Stepper::endstops_trigsteps[XYZ];
#define LOCKED_X2_MOTOR locked_x2_motor
#define LOCKED_Y2_MOTOR locked_y2_motor
#define LOCKED_Z2_MOTOR locked_z2_motor
#define DUAL_ENDSTOP_APPLY_STEP(AXIS,v) \
#define DUAL_ENDSTOP_APPLY_STEP(A,V) \
if (performing_homing) { \
if (AXIS##_HOME_DIR < 0) { \
if (!(TEST(endstops.old_endstop_bits, AXIS##_MIN) && count_direction[AXIS##_AXIS] < 0) && !LOCKED_##AXIS##_MOTOR) AXIS##_STEP_WRITE(v); \
if (!(TEST(endstops.old_endstop_bits, AXIS##2_MIN) && count_direction[AXIS##_AXIS] < 0) && !LOCKED_##AXIS##2_MOTOR) AXIS##2_STEP_WRITE(v); \
if (A##_HOME_DIR < 0) { \
if (!(TEST(endstops.old_endstop_bits, A##_MIN) && count_direction[_AXIS(A)] < 0) && !LOCKED_##A##_MOTOR) A##_STEP_WRITE(V); \
if (!(TEST(endstops.old_endstop_bits, A##2_MIN) && count_direction[_AXIS(A)] < 0) && !LOCKED_##A##2_MOTOR) A##2_STEP_WRITE(V); \
} \
else { \
if (!(TEST(endstops.old_endstop_bits, AXIS##_MAX) && count_direction[AXIS##_AXIS] > 0) && !LOCKED_##AXIS##_MOTOR) AXIS##_STEP_WRITE(v); \
if (!(TEST(endstops.old_endstop_bits, AXIS##2_MAX) && count_direction[AXIS##_AXIS] > 0) && !LOCKED_##AXIS##2_MOTOR) AXIS##2_STEP_WRITE(v); \
if (!(TEST(endstops.old_endstop_bits, A##_MAX) && count_direction[_AXIS(A)] > 0) && !LOCKED_##A##_MOTOR) A##_STEP_WRITE(V); \
if (!(TEST(endstops.old_endstop_bits, A##2_MAX) && count_direction[_AXIS(A)] > 0) && !LOCKED_##A##2_MOTOR) A##2_STEP_WRITE(V); \
} \
} \
else { \
AXIS##_STEP_WRITE(v); \
AXIS##2_STEP_WRITE(v); \
A##_STEP_WRITE(V); \
A##2_STEP_WRITE(V); \
}
#endif