Replace some float division with multiplication
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ddde785b37
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d8f2876753
@ -1332,7 +1332,7 @@ inline bool code_value_bool() { return code_value_byte() > 0; }
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case TEMPUNIT_C:
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return code_value_float();
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case TEMPUNIT_F:
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return (code_value_float() - 32) / 1.8;
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return (code_value_float() - 32) * 0.5555555556;
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case TEMPUNIT_K:
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return code_value_float() - 272.15;
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default:
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@ -1346,7 +1346,7 @@ inline bool code_value_bool() { return code_value_byte() > 0; }
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case TEMPUNIT_K:
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return code_value_float();
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case TEMPUNIT_F:
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return code_value_float() / 1.8;
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return code_value_float() * 0.5555555556;
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default:
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return code_value_float();
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}
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@ -6141,7 +6141,7 @@ inline void gcode_M428() {
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bool err = false;
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LOOP_XYZ(i) {
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if (axis_homed[i]) {
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float base = (current_position[i] > (sw_endstop_min[i] + sw_endstop_max[i]) / 2) ? base_home_pos(i) : 0,
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float base = (current_position[i] > (sw_endstop_min[i] + sw_endstop_max[i]) * 0.5) ? base_home_pos(i) : 0,
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diff = current_position[i] - LOGICAL_POSITION(base, i);
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if (diff > -20 && diff < 20) {
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set_home_offset((AxisEnum)i, home_offset[i] - diff);
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@ -814,7 +814,7 @@ void Planner::check_axes_activity() {
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delta_mm[Z_AXIS] = dz * steps_to_mm[Z_AXIS];
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#endif
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#endif
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delta_mm[E_AXIS] = (de * steps_to_mm[E_AXIS]) * volumetric_multiplier[extruder] * extruder_multiplier[extruder] / 100.0;
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delta_mm[E_AXIS] = 0.01 * (de * steps_to_mm[E_AXIS]) * volumetric_multiplier[extruder] * extruder_multiplier[extruder];
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if (block->steps[X_AXIS] <= dropsegments && block->steps[Y_AXIS] <= dropsegments && block->steps[Z_AXIS] <= dropsegments) {
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block->millimeters = fabs(delta_mm[E_AXIS]);
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@ -888,7 +888,7 @@ void Planner::check_axes_activity() {
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while (filwidth_delay_dist >= MMD_MM) filwidth_delay_dist -= MMD_MM;
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// Convert into an index into the measurement array
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filwidth_delay_index1 = (int)(filwidth_delay_dist / 10.0 + 0.0001);
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filwidth_delay_index1 = (int)(filwidth_delay_dist * 0.1 + 0.0001);
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// If the index has changed (must have gone forward)...
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if (filwidth_delay_index1 != filwidth_delay_index2) {
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@ -975,7 +975,7 @@ void Planner::check_axes_activity() {
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block->acceleration_steps_per_s2 = (max_acceleration_steps_per_s2[E_AXIS] * block->step_event_count) / block->steps[E_AXIS];
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}
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block->acceleration = block->acceleration_steps_per_s2 / steps_per_mm;
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block->acceleration_rate = (long)(block->acceleration_steps_per_s2 * 16777216.0 / ((F_CPU) / 8.0));
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block->acceleration_rate = (long)(block->acceleration_steps_per_s2 * 16777216.0 / ((F_CPU) * 0.125));
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#if 0 // Use old jerk for now
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@ -1021,10 +1021,12 @@ void Planner::check_axes_activity() {
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#endif
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// Start with a safe speed
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float vmax_junction = max_xy_jerk / 2;
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float vmax_junction_factor = 1.0;
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float mz2 = max_z_jerk / 2, me2 = max_e_jerk / 2;
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float csz = current_speed[Z_AXIS], cse = current_speed[E_AXIS];
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float vmax_junction = max_xy_jerk * 0.5,
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vmax_junction_factor = 1.0,
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mz2 = max_z_jerk * 0.5,
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me2 = max_e_jerk * 0.5,
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csz = current_speed[Z_AXIS],
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cse = current_speed[E_AXIS];
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if (fabs(csz) > mz2) vmax_junction = min(vmax_junction, mz2);
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if (fabs(cse) > me2) vmax_junction = min(vmax_junction, me2);
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vmax_junction = min(vmax_junction, block->nominal_speed);
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@ -944,7 +944,7 @@ float Stepper::get_axis_position_mm(AxisEnum axis) {
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CRITICAL_SECTION_END;
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// ((a1+a2)+(a1-a2))/2 -> (a1+a2+a1-a2)/2 -> (a1+a1)/2 -> a1
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// ((a1+a2)-(a1-a2))/2 -> (a1+a2-a1+a2)/2 -> (a2+a2)/2 -> a2
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axis_steps = (pos1 + ((axis == CORE_AXIS_1) ? pos2 : -pos2)) / 2.0f;
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axis_steps = (pos1 + ((axis == CORE_AXIS_1) ? pos2 : -pos2)) * 0.5f;
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}
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else
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axis_steps = position(axis);
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@ -973,9 +973,9 @@ void Stepper::endstop_triggered(AxisEnum axis) {
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float axis_pos = count_position[axis];
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if (axis == CORE_AXIS_1)
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axis_pos = (axis_pos + count_position[CORE_AXIS_2]) / 2;
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axis_pos = (axis_pos + count_position[CORE_AXIS_2]) * 0.5;
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else if (axis == CORE_AXIS_2)
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axis_pos = (count_position[CORE_AXIS_1] - axis_pos) / 2;
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axis_pos = (count_position[CORE_AXIS_1] - axis_pos) * 0.5;
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endstops_trigsteps[axis] = axis_pos;
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#else // !COREXY && !COREXZ && !COREYZ
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@ -319,13 +319,13 @@ unsigned char Temperature::soft_pwm[HOTENDS];
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SERIAL_PROTOCOLPAIR(MSG_T_MIN, min);
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SERIAL_PROTOCOLPAIR(MSG_T_MAX, max);
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if (cycles > 2) {
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Ku = (4.0 * d) / (3.14159265 * (max - min) / 2.0);
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Tu = ((float)(t_low + t_high) / 1000.0);
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Ku = (4.0 * d) / (3.14159265 * (max - min) * 0.5);
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Tu = ((float)(t_low + t_high) * 0.001);
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SERIAL_PROTOCOLPAIR(MSG_KU, Ku);
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SERIAL_PROTOCOLPAIR(MSG_TU, Tu);
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workKp = 0.6 * Ku;
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workKi = 2 * workKp / Tu;
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workKd = workKp * Tu / 8;
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workKd = workKp * Tu * 0.125;
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SERIAL_PROTOCOLLNPGM(MSG_CLASSIC_PID);
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SERIAL_PROTOCOLPAIR(MSG_KP, workKp);
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SERIAL_PROTOCOLPAIR(MSG_KI, workKi);
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@ -753,7 +753,7 @@ void Temperature::manage_heater() {
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// Get the delayed info and add 100 to reconstitute to a percent of
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// the nominal filament diameter then square it to get an area
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meas_shift_index = constrain(meas_shift_index, 0, MAX_MEASUREMENT_DELAY);
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float vm = pow((measurement_delay[meas_shift_index] + 100.0) / 100.0, 2);
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float vm = pow((measurement_delay[meas_shift_index] + 100.0) * 0.01, 2);
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NOLESS(vm, 0.01);
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volumetric_multiplier[FILAMENT_SENSOR_EXTRUDER_NUM] = vm;
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}
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@ -385,7 +385,7 @@ static void lcd_implementation_status_screen() {
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// SD Card Progress bar and clock
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if (IS_SD_PRINTING) {
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// Progress bar solid part
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u8g.drawBox(55, 50, (unsigned int)(71.f * card.percentDone() / 100.f), 2 - (TALL_FONT_CORRECTION));
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u8g.drawBox(55, 50, (unsigned int)(71 * card.percentDone() * 0.01), 2 - (TALL_FONT_CORRECTION));
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}
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u8g.setPrintPos(80,48);
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