Additional wrapping for #3140
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@ -6699,7 +6699,7 @@ void plan_arc(
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float mm_of_travel = hypot(angular_travel * radius, fabs(linear_travel));
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if (mm_of_travel < 0.001) return;
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uint16_t segments = floor(mm_of_travel / MM_PER_ARC_SEGMENT);
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uint16_t segments = floor(mm_of_travel / (MM_PER_ARC_SEGMENT));
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if (segments == 0) segments = 1;
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float theta_per_segment = angular_travel / segments;
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@ -14,8 +14,8 @@
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void reset();
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float get_x(int i) { return MESH_MIN_X + MESH_X_DIST * i; }
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float get_y(int i) { return MESH_MIN_Y + MESH_Y_DIST * i; }
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float get_x(int i) { return MESH_MIN_X + (MESH_X_DIST) * i; }
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float get_y(int i) { return MESH_MIN_Y + (MESH_Y_DIST) * i; }
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void set_z(int ix, int iy, float z) { z_values[iy][ix] = z; }
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int select_x_index(float x) {
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@ -331,7 +331,7 @@ void planner_recalculate_trapezoids() {
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// Last/newest block in buffer. Exit speed is set with MINIMUM_PLANNER_SPEED. Always recalculated.
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if (next) {
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float nom = next->nominal_speed;
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calculate_trapezoid_for_block(next, next->entry_speed / nom, MINIMUM_PLANNER_SPEED / nom);
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calculate_trapezoid_for_block(next, next->entry_speed / nom, (MINIMUM_PLANNER_SPEED) / nom);
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next->recalculate_flag = false;
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}
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}
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@ -389,8 +389,8 @@ void plan_init() {
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float t = autotemp_min + high * autotemp_factor;
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t = constrain(t, autotemp_min, autotemp_max);
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if (oldt > t) {
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t *= (1 - AUTOTEMP_OLDWEIGHT);
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t += AUTOTEMP_OLDWEIGHT * oldt;
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t *= (1 - (AUTOTEMP_OLDWEIGHT));
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t += (AUTOTEMP_OLDWEIGHT) * oldt;
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}
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oldt = t;
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setTargetHotend0(t);
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@ -839,7 +839,7 @@ float junction_deviation = 0.1;
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max_y_segment_time = max(ys0, max(ys1, ys2)),
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min_xy_segment_time = min(max_x_segment_time, max_y_segment_time);
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if (min_xy_segment_time < MAX_FREQ_TIME) {
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float low_sf = speed_factor * min_xy_segment_time / MAX_FREQ_TIME;
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float low_sf = speed_factor * min_xy_segment_time / (MAX_FREQ_TIME);
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speed_factor = min(speed_factor, low_sf);
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}
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#endif // XY_FREQUENCY_LIMIT
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@ -57,7 +57,7 @@
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#define TRIM_DURATION 2 // compensation ticks to trim adjust for digitalWrite delays // 12 August 2009
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//#define NBR_TIMERS (MAX_SERVOS / SERVOS_PER_TIMER)
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//#define NBR_TIMERS ((MAX_SERVOS) / (SERVOS_PER_TIMER))
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static ServoInfo_t servo_info[MAX_SERVOS]; // static array of servo info structures
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static volatile int8_t Channel[_Nbr_16timers ]; // counter for the servo being pulsed for each timer (or -1 if refresh interval)
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@ -66,9 +66,9 @@ uint8_t ServoCount = 0; // the total number
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// convenience macros
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#define SERVO_INDEX_TO_TIMER(_servo_nbr) ((timer16_Sequence_t)(_servo_nbr / SERVOS_PER_TIMER)) // returns the timer controlling this servo
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#define SERVO_INDEX_TO_CHANNEL(_servo_nbr) (_servo_nbr % SERVOS_PER_TIMER) // returns the index of the servo on this timer
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#define SERVO_INDEX(_timer,_channel) ((_timer*SERVOS_PER_TIMER) + _channel) // macro to access servo index by timer and channel
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#define SERVO_INDEX_TO_TIMER(_servo_nbr) ((timer16_Sequence_t)(_servo_nbr / (SERVOS_PER_TIMER))) // returns the timer controlling this servo
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#define SERVO_INDEX_TO_CHANNEL(_servo_nbr) (_servo_nbr % (SERVOS_PER_TIMER)) // returns the index of the servo on this timer
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#define SERVO_INDEX(_timer,_channel) ((_timer*(SERVOS_PER_TIMER)) + _channel) // macro to access servo index by timer and channel
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#define SERVO(_timer,_channel) (servo_info[SERVO_INDEX(_timer,_channel)]) // macro to access servo class by timer and channel
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#define SERVO_MIN() (MIN_PULSE_WIDTH - this->min * 4) // minimum value in uS for this servo
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@ -1220,9 +1220,9 @@ void digipot_current(uint8_t driver, int current) {
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digitalPotWrite(digipot_ch[driver], current);
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#elif defined(MOTOR_CURRENT_PWM_XY_PIN)
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switch (driver) {
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case 0: analogWrite(MOTOR_CURRENT_PWM_XY_PIN, 255L * current / MOTOR_CURRENT_PWM_RANGE); break;
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case 1: analogWrite(MOTOR_CURRENT_PWM_Z_PIN, 255L * current / MOTOR_CURRENT_PWM_RANGE); break;
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case 2: analogWrite(MOTOR_CURRENT_PWM_E_PIN, 255L * current / MOTOR_CURRENT_PWM_RANGE); break;
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case 0: analogWrite(MOTOR_CURRENT_PWM_XY_PIN, 255L * current / (MOTOR_CURRENT_PWM_RANGE)); break;
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case 1: analogWrite(MOTOR_CURRENT_PWM_Z_PIN, 255L * current / (MOTOR_CURRENT_PWM_RANGE)); break;
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case 2: analogWrite(MOTOR_CURRENT_PWM_E_PIN, 255L * current / (MOTOR_CURRENT_PWM_RANGE)); break;
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}
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#else
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UNUSED(driver);
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@ -465,7 +465,7 @@ void lcd_set_home_offsets() {
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static void _lcd_babystep(int axis, const char* msg) {
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if (encoderPosition != 0) {
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babystepsTodo[axis] += BABYSTEP_MULTIPLICATOR * (int)encoderPosition;
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babystepsTodo[axis] += (BABYSTEP_MULTIPLICATOR) * (int)encoderPosition;
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encoderPosition = 0;
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lcdDrawUpdate = 1;
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}
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@ -59,7 +59,7 @@ uint8_t u8g_dev_rrd_st7920_128x64_fn(u8g_t *u8g, u8g_dev_t *dev, uint8_t msg, vo
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ST7920_WRITE_BYTE(0x01); //clear CGRAM ram
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u8g_Delay(15); //delay for CGRAM clear
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ST7920_WRITE_BYTE(0x3E); //extended mode + GDRAM active
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for (y = 0; y < LCD_PIXEL_HEIGHT / 2; y++) { //clear GDRAM
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for (y = 0; y < (LCD_PIXEL_HEIGHT) / 2; y++) { //clear GDRAM
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ST7920_WRITE_BYTE(0x80 | y); //set y
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ST7920_WRITE_BYTE(0x80); //set x = 0
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ST7920_SET_DAT();
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@ -91,7 +91,7 @@ uint8_t u8g_dev_rrd_st7920_128x64_fn(u8g_t *u8g, u8g_dev_t *dev, uint8_t msg, vo
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ST7920_WRITE_BYTE(0x80 | 8); //x=64
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}
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ST7920_SET_DAT();
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ST7920_WRITE_BYTES(ptr, LCD_PIXEL_WIDTH / 8); //ptr is incremented inside of macro
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ST7920_WRITE_BYTES(ptr, (LCD_PIXEL_WIDTH) / 8); //ptr is incremented inside of macro
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y++;
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}
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ST7920_NCS();
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@ -107,7 +107,7 @@ uint8_t u8g_dev_rrd_st7920_128x64_fn(u8g_t *u8g, u8g_dev_t *dev, uint8_t msg, vo
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#endif
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}
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uint8_t u8g_dev_st7920_128x64_rrd_buf[LCD_PIXEL_WIDTH * (PAGE_HEIGHT / 8)] U8G_NOCOMMON;
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uint8_t u8g_dev_st7920_128x64_rrd_buf[(LCD_PIXEL_WIDTH) * (PAGE_HEIGHT) / 8] U8G_NOCOMMON;
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u8g_pb_t u8g_dev_st7920_128x64_rrd_pb = {{PAGE_HEIGHT, LCD_PIXEL_HEIGHT, 0, 0, 0}, LCD_PIXEL_WIDTH, u8g_dev_st7920_128x64_rrd_buf};
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u8g_dev_t u8g_dev_st7920_128x64_rrd_sw_spi = {u8g_dev_rrd_st7920_128x64_fn, &u8g_dev_st7920_128x64_rrd_pb, &u8g_com_null_fn};
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