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@ -198,6 +198,9 @@ int EtoPPressure=0; |
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//===========================================================================
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//===========================================================================
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const char axis_codes[NUM_AXIS] = {'X', 'Y', 'Z', 'E'}; |
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const char axis_codes[NUM_AXIS] = {'X', 'Y', 'Z', 'E'}; |
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static float destination[NUM_AXIS] = { 0.0, 0.0, 0.0, 0.0}; |
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static float destination[NUM_AXIS] = { 0.0, 0.0, 0.0, 0.0}; |
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#ifdef DELTA |
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static float delta[3] = {0.0, 0.0, 0.0}; |
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#endif |
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static float offset[3] = {0.0, 0.0, 0.0}; |
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static float offset[3] = {0.0, 0.0, 0.0}; |
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static bool home_all_axis = true; |
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static bool home_all_axis = true; |
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static float feedrate = 1500.0, next_feedrate, saved_feedrate; |
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static float feedrate = 1500.0, next_feedrate, saved_feedrate; |
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@ -836,6 +839,10 @@ void process_commands() |
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feedrate = 0.0; |
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feedrate = 0.0; |
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st_synchronize(); |
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st_synchronize(); |
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endstops_hit_on_purpose(); |
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endstops_hit_on_purpose(); |
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current_position[X_AXIS] = destination[X_AXIS]; |
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current_position[Y_AXIS] = destination[Y_AXIS]; |
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current_position[Z_AXIS] = destination[Z_AXIS]; |
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} |
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} |
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#endif |
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#endif |
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@ -872,8 +879,12 @@ void process_commands() |
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current_position[Z_AXIS]=code_value()+add_homeing[2]; |
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current_position[Z_AXIS]=code_value()+add_homeing[2]; |
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} |
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} |
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} |
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} |
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plan_set_position(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS]); |
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#ifdef DELTA |
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calculate_delta(current_position); |
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plan_set_position(delta[X_AXIS], delta[Y_AXIS], delta[Z_AXIS], current_position[E_AXIS]); |
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#else |
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plan_set_position(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS]); |
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#endif |
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#ifdef ENDSTOPS_ONLY_FOR_HOMING |
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#ifdef ENDSTOPS_ONLY_FOR_HOMING |
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enable_endstops(false); |
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enable_endstops(false); |
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#endif |
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#endif |
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@ -2051,11 +2062,64 @@ void clamp_to_software_endstops(float target[3]) |
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} |
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} |
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} |
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} |
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#ifdef DELTA |
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void calculate_delta(float cartesian[3]) |
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{ |
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delta[X_AXIS] = sqrt(sq(DELTA_DIAGONAL_ROD) |
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- sq(DELTA_TOWER1_X-cartesian[X_AXIS]) |
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- sq(DELTA_TOWER1_Y-cartesian[Y_AXIS]) |
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) + cartesian[Z_AXIS]; |
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delta[Y_AXIS] = sqrt(sq(DELTA_DIAGONAL_ROD) |
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- sq(DELTA_TOWER2_X-cartesian[X_AXIS]) |
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- sq(DELTA_TOWER2_Y-cartesian[Y_AXIS]) |
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) + cartesian[Z_AXIS]; |
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delta[Z_AXIS] = sqrt(sq(DELTA_DIAGONAL_ROD) |
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- sq(DELTA_TOWER3_X-cartesian[X_AXIS]) |
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- sq(DELTA_TOWER3_Y-cartesian[Y_AXIS]) |
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) + cartesian[Z_AXIS]; |
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/*
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SERIAL_ECHOPGM("cartesian x="); SERIAL_ECHO(cartesian[X_AXIS]); |
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SERIAL_ECHOPGM(" y="); SERIAL_ECHO(cartesian[Y_AXIS]); |
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SERIAL_ECHOPGM(" z="); SERIAL_ECHOLN(cartesian[Z_AXIS]); |
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SERIAL_ECHOPGM("delta x="); SERIAL_ECHO(delta[X_AXIS]); |
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SERIAL_ECHOPGM(" y="); SERIAL_ECHO(delta[Y_AXIS]); |
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SERIAL_ECHOPGM(" z="); SERIAL_ECHOLN(delta[Z_AXIS]); |
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*/ |
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} |
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#endif |
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void prepare_move() |
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void prepare_move() |
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{ |
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{ |
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clamp_to_software_endstops(destination); |
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clamp_to_software_endstops(destination); |
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previous_millis_cmd = millis(); |
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previous_millis_cmd = millis(); |
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#ifdef DELTA |
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float difference[NUM_AXIS]; |
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for (int8_t i=0; i < NUM_AXIS; i++) { |
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difference[i] = destination[i] - current_position[i]; |
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} |
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float cartesian_mm = sqrt(sq(difference[X_AXIS]) + |
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sq(difference[Y_AXIS]) + |
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sq(difference[Z_AXIS])); |
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if (cartesian_mm < 0.000001) { cartesian_mm = abs(difference[E_AXIS]); } |
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if (cartesian_mm < 0.000001) { return; } |
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float seconds = 6000 * cartesian_mm / feedrate / feedmultiply; |
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int steps = max(1, int(DELTA_SEGMENTS_PER_SECOND * seconds)); |
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// SERIAL_ECHOPGM("mm="); SERIAL_ECHO(cartesian_mm);
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// SERIAL_ECHOPGM(" seconds="); SERIAL_ECHO(seconds);
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// SERIAL_ECHOPGM(" steps="); SERIAL_ECHOLN(steps);
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for (int s = 1; s <= steps; s++) { |
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float fraction = float(s) / float(steps); |
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for(int8_t i=0; i < NUM_AXIS; i++) { |
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destination[i] = current_position[i] + difference[i] * fraction; |
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} |
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calculate_delta(destination); |
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plan_buffer_line(delta[X_AXIS], delta[Y_AXIS], delta[Z_AXIS], |
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destination[E_AXIS], feedrate*feedmultiply/60/100.0, |
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active_extruder); |
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} |
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#else |
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// Do not use feedmultiply for E or Z only moves
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// Do not use feedmultiply for E or Z only moves
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if( (current_position[X_AXIS] == destination [X_AXIS]) && (current_position[Y_AXIS] == destination [Y_AXIS])) { |
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if( (current_position[X_AXIS] == destination [X_AXIS]) && (current_position[Y_AXIS] == destination [Y_AXIS])) { |
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plan_buffer_line(destination[X_AXIS], destination[Y_AXIS], destination[Z_AXIS], destination[E_AXIS], feedrate/60, active_extruder); |
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plan_buffer_line(destination[X_AXIS], destination[Y_AXIS], destination[Z_AXIS], destination[E_AXIS], feedrate/60, active_extruder); |
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@ -2063,6 +2127,7 @@ void prepare_move() |
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else { |
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else { |
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plan_buffer_line(destination[X_AXIS], destination[Y_AXIS], destination[Z_AXIS], destination[E_AXIS], feedrate*feedmultiply/60/100.0, active_extruder); |
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plan_buffer_line(destination[X_AXIS], destination[Y_AXIS], destination[Z_AXIS], destination[E_AXIS], feedrate*feedmultiply/60/100.0, active_extruder); |
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} |
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} |
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#endif |
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for(int8_t i=0; i < NUM_AXIS; i++) { |
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for(int8_t i=0; i < NUM_AXIS; i++) { |
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current_position[i] = destination[i]; |
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current_position[i] = destination[i]; |
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} |
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} |
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@ -2306,3 +2371,4 @@ bool setTargetedHotend(int code){ |
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} |
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} |
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return false; |
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return false; |
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} |
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} |
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