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Some advance modifications
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@ -278,8 +278,8 @@ const bool Z_ENDSTOPS_INVERTING = true; // set to true to invert the logic of th
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#ifdef ADVANCE
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#ifdef ADVANCE
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#define EXTRUDER_ADVANCE_K .3
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#define EXTRUDER_ADVANCE_K .3
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#define D_FILAMENT 1.7
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#define D_FILAMENT 2.85
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#define STEPS_MM_E 65
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#define STEPS_MM_E 836
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#define EXTRUTION_AREA (0.25 * D_FILAMENT * D_FILAMENT * 3.14159)
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#define EXTRUTION_AREA (0.25 * D_FILAMENT * D_FILAMENT * 3.14159)
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#define STEPS_PER_CUBIC_MM_E (axis_steps_per_unit[E_AXIS]/ EXTRUTION_AREA)
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#define STEPS_PER_CUBIC_MM_E (axis_steps_per_unit[E_AXIS]/ EXTRUTION_AREA)
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@ -198,7 +198,6 @@ void calculate_trapezoid_for_block(block_t *block, float entry_factor, float exi
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// block->accelerate_until = accelerate_steps;
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// block->accelerate_until = accelerate_steps;
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// block->decelerate_after = accelerate_steps+plateau_steps;
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// block->decelerate_after = accelerate_steps+plateau_steps;
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CRITICAL_SECTION_START; // Fill variables used by the stepper in a critical section
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CRITICAL_SECTION_START; // Fill variables used by the stepper in a critical section
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if(block->busy == false) { // Don't update variables if block is busy.
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if(block->busy == false) { // Don't update variables if block is busy.
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block->accelerate_until = accelerate_steps;
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block->accelerate_until = accelerate_steps;
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@ -722,7 +721,7 @@ void plan_buffer_line(const float &x, const float &y, const float &z, const floa
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else {
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else {
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long acc_dist = estimate_acceleration_distance(0, block->nominal_rate, block->acceleration_st);
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long acc_dist = estimate_acceleration_distance(0, block->nominal_rate, block->acceleration_st);
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float advance = (STEPS_PER_CUBIC_MM_E * EXTRUDER_ADVANCE_K) *
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float advance = (STEPS_PER_CUBIC_MM_E * EXTRUDER_ADVANCE_K) *
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(current_speed[E_AXIS] * current_speed[E_AXIS] * EXTRUTION_AREA * EXTRUTION_AREA / 3600.0)*65536;
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(current_speed[E_AXIS] * current_speed[E_AXIS] * EXTRUTION_AREA * EXTRUTION_AREA)*256;
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block->advance = advance;
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block->advance = advance;
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if(acc_dist == 0) {
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if(acc_dist == 0) {
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block->advance_rate = 0;
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block->advance_rate = 0;
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@ -731,6 +730,13 @@ void plan_buffer_line(const float &x, const float &y, const float &z, const floa
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block->advance_rate = advance / (float)acc_dist;
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block->advance_rate = advance / (float)acc_dist;
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}
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}
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}
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}
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/*
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SERIAL_ECHO_START;
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SERIAL_ECHOPGM("advance :");
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SERIAL_ECHO(block->advance/256.0);
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SERIAL_ECHOPGM("advance rate :");
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SERIAL_ECHOLN(block->advance_rate/256.0);
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*/
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#endif // ADVANCE
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#endif // ADVANCE
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@ -55,9 +55,9 @@ static long counter_x, // Counter variables for the bresenham line tracer
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volatile static unsigned long step_events_completed; // The number of step events executed in the current block
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volatile static unsigned long step_events_completed; // The number of step events executed in the current block
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#ifdef ADVANCE
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#ifdef ADVANCE
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static long advance_rate, advance, final_advance = 0;
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static long advance_rate, advance, final_advance = 0;
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static short old_advance = 0;
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static long old_advance = 0;
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#endif
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#endif
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static short e_steps;
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static long e_steps;
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static unsigned char busy = false; // TRUE when SIG_OUTPUT_COMPARE1A is being serviced. Used to avoid retriggering that handler.
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static unsigned char busy = false; // TRUE when SIG_OUTPUT_COMPARE1A is being serviced. Used to avoid retriggering that handler.
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static long acceleration_time, deceleration_time;
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static long acceleration_time, deceleration_time;
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//static unsigned long accelerate_until, decelerate_after, acceleration_rate, initial_rate, final_rate, nominal_rate;
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//static unsigned long accelerate_until, decelerate_after, acceleration_rate, initial_rate, final_rate, nominal_rate;
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@ -253,6 +253,9 @@ FORCE_INLINE void trapezoid_generator_reset() {
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#ifdef ADVANCE
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#ifdef ADVANCE
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advance = current_block->initial_advance;
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advance = current_block->initial_advance;
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final_advance = current_block->final_advance;
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final_advance = current_block->final_advance;
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// Do E steps + advance steps
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e_steps += ((advance >>8) - old_advance);
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old_advance = advance >>8;
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#endif
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#endif
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deceleration_time = 0;
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deceleration_time = 0;
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// step_rate to timer interval
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// step_rate to timer interval
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@ -260,6 +263,17 @@ FORCE_INLINE void trapezoid_generator_reset() {
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acceleration_time = calc_timer(acc_step_rate);
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acceleration_time = calc_timer(acc_step_rate);
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OCR1A = acceleration_time;
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OCR1A = acceleration_time;
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OCR1A_nominal = calc_timer(current_block->nominal_rate);
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OCR1A_nominal = calc_timer(current_block->nominal_rate);
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// SERIAL_ECHO_START;
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// SERIAL_ECHOPGM("advance :");
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// SERIAL_ECHO(current_block->advance/256.0);
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// SERIAL_ECHOPGM("advance rate :");
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// SERIAL_ECHO(current_block->advance_rate/256.0);
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// SERIAL_ECHOPGM("initial advance :");
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// SERIAL_ECHO(current_block->initial_advance/256.0);
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// SERIAL_ECHOPGM("final advance :");
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// SERIAL_ECHOLN(current_block->final_advance/256.0);
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}
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}
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// "The Stepper Driver Interrupt" - This timer interrupt is the workhorse.
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// "The Stepper Driver Interrupt" - This timer interrupt is the workhorse.
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@ -382,6 +396,9 @@ ISR(TIMER1_COMPA_vect)
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count_direction[E_AXIS]=-1;
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count_direction[E_AXIS]=-1;
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}
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}
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#endif //!ADVANCE
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#endif //!ADVANCE
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for(int8_t i=0; i < step_loops; i++) { // Take multiple steps per interrupt (For high speed moves)
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for(int8_t i=0; i < step_loops; i++) { // Take multiple steps per interrupt (For high speed moves)
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MSerial.checkRx(); // Check for serial chars.
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MSerial.checkRx(); // Check for serial chars.
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@ -390,19 +407,12 @@ ISR(TIMER1_COMPA_vect)
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if (counter_e > 0) {
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if (counter_e > 0) {
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counter_e -= current_block->step_event_count;
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counter_e -= current_block->step_event_count;
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if ((out_bits & (1<<E_AXIS)) != 0) { // - direction
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if ((out_bits & (1<<E_AXIS)) != 0) { // - direction
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CRITICAL_SECTION_START;
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e_steps--;
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e_steps--;
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CRITICAL_SECTION_END;
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}
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}
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else {
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else {
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CRITICAL_SECTION_START;
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e_steps++;
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e_steps++;
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CRITICAL_SECTION_END;
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}
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}
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}
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}
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// Do E steps + advance steps
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e_steps += ((advance >> 16) - old_advance);
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old_advance = advance >> 16;
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#endif //ADVANCE
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#endif //ADVANCE
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counter_x += current_block->steps_x;
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counter_x += current_block->steps_x;
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@ -461,6 +471,11 @@ ISR(TIMER1_COMPA_vect)
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for(int8_t i=0; i < step_loops; i++) {
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for(int8_t i=0; i < step_loops; i++) {
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advance += advance_rate;
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advance += advance_rate;
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}
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}
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//if(advance > current_block->advance) advance = current_block->advance;
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// Do E steps + advance steps
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e_steps += ((advance >>8) - old_advance);
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old_advance = advance >>8;
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#endif
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#endif
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}
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}
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else if (step_events_completed > current_block->decelerate_after) {
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else if (step_events_completed > current_block->decelerate_after) {
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@ -485,8 +500,10 @@ ISR(TIMER1_COMPA_vect)
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for(int8_t i=0; i < step_loops; i++) {
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for(int8_t i=0; i < step_loops; i++) {
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advance -= advance_rate;
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advance -= advance_rate;
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}
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}
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if(advance < final_advance)
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if(advance < final_advance) advance = final_advance;
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advance = final_advance;
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// Do E steps + advance steps
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e_steps += ((advance >>8) - old_advance);
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old_advance = advance >>8;
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#endif //ADVANCE
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#endif //ADVANCE
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}
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}
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else {
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else {
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@ -507,7 +524,7 @@ ISR(TIMER1_COMPA_vect)
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// Timer 0 is shared with millies
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// Timer 0 is shared with millies
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ISR(TIMER0_COMPA_vect)
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ISR(TIMER0_COMPA_vect)
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{
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{
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old_OCR0A += 25; // ~10kHz interrupt
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old_OCR0A += 52; // ~10kHz interrupt (250000 / 26 = 9615kHz)
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OCR0A = old_OCR0A;
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OCR0A = old_OCR0A;
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// Set E direction (Depends on E direction + advance)
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// Set E direction (Depends on E direction + advance)
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for(unsigned char i=0; i<4;) {
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for(unsigned char i=0; i<4;) {
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@ -519,7 +536,7 @@ ISR(TIMER1_COMPA_vect)
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e_steps++;
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e_steps++;
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WRITE(E_STEP_PIN, HIGH);
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WRITE(E_STEP_PIN, HIGH);
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}
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}
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if (e_steps > 0) {
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else if (e_steps > 0) {
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WRITE(E_DIR_PIN,!INVERT_E_DIR);
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WRITE(E_DIR_PIN,!INVERT_E_DIR);
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e_steps--;
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e_steps--;
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WRITE(E_STEP_PIN, HIGH);
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WRITE(E_STEP_PIN, HIGH);
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