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https://github.com/MarlinFirmware/Marlin.git
synced 2024-11-23 20:18:52 +00:00
added delta tower babystepping. Its untested, but hopefully florian horsch will be able to try.
also, removed some trouble for compilation with corexy. I think that babystepping is only possible in z for a delta tower. not sure if it would be usefull to step individual motors on a delta, i don't own one
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@ -273,12 +273,21 @@
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// Babystepping enables the user to control the axis in tiny amounts, independently from the normal printing process
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// it can e.g. be used to change z-positions in the print startup phase in realtime
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// does not respect endstops!
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//#define BABYSTEPPING
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//#define BABYSTEP_XY //not only z, but also XY
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#ifdef COREXY
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#ifdef BABYSTEPPING
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#define BABYSTEP_XY //not only z, but also XY in the menu. more clutter, more functions
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#define BABYSTEP_INVERT_Z false //true for inverse movements in Z
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#define BABYSTEP_Z_MULTIPLICATOR 2 //faster z movements
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#ifdef COREXY
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#error BABYSTEPPING not implemented for COREXY yet.
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#endif
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#ifdef DELTA
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#ifdef BABYSTEP_XY
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#error BABYSTEPPING only implemented for Z axis on deltabots.
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#endif
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#endif
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#endif
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// extruder advance constant (s2/mm3)
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@ -1069,15 +1069,17 @@ void babystep(const uint8_t axis,const bool direction)
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#endif
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}
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break;
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break;
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#ifndef DELTA
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case Z_AXIS:
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{
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enable_z();
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uint8_t old_z_dir_pin= READ(Z_DIR_PIN); //if dualzstepper, both point to same direction.
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//setup new step
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WRITE(Z_DIR_PIN,(INVERT_Z_DIR)^direction);
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WRITE(Z_DIR_PIN,(INVERT_Z_DIR)^direction^BABYSTEP_INVERT_Z);
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#ifdef Z_DUAL_STEPPER_DRIVERS
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WRITE(Z2_DIR_PIN,(INVERT_Z_DIR)^direction);
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WRITE(Z2_DIR_PIN,(INVERT_Z_DIR)^direction^BABYSTEP_INVERT_Z);
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#endif
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//perform step
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WRITE(Z_STEP_PIN, !INVERT_Z_STEP_PIN);
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@ -1101,6 +1103,41 @@ void babystep(const uint8_t axis,const bool direction)
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}
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break;
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#else //DELTA
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case Z_AXIS:
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{
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enable_x();
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enable_y();
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enable_z();
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uint8_t old_x_dir_pin= READ(X_DIR_PIN);
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uint8_t old_y_dir_pin= READ(Y_DIR_PIN);
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uint8_t old_z_dir_pin= READ(Z_DIR_PIN);
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//setup new step
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WRITE(X_DIR_PIN,(INVERT_X_DIR)^direction^BABYSTEP_INVERT_Z);
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WRITE(Y_DIR_PIN,(INVERT_Y_DIR)^direction^BABYSTEP_INVERT_Z);
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WRITE(Z_DIR_PIN,(INVERT_Z_DIR)^direction^BABYSTEP_INVERT_Z);
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//perform step
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WRITE(X_STEP_PIN, !INVERT_X_STEP_PIN);
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WRITE(Y_STEP_PIN, !INVERT_Y_STEP_PIN);
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WRITE(Z_STEP_PIN, !INVERT_Z_STEP_PIN);
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//wait a tiny bit
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{
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float x=1./float(axis+1); //absolutely useless
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}
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WRITE(X_STEP_PIN, INVERT_X_STEP_PIN);
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WRITE(Y_STEP_PIN, INVERT_Y_STEP_PIN);
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WRITE(Z_STEP_PIN, INVERT_Z_STEP_PIN);
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//get old pin state back.
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WRITE(X_DIR_PIN,old_x_dir_pin);
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WRITE(Y_DIR_PIN,old_y_dir_pin);
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WRITE(Z_DIR_PIN,old_z_dir_pin);
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}
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break;
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#endif
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default: break;
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}
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@ -367,7 +367,7 @@ static void lcd_babystep_z()
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{
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if (encoderPosition != 0)
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{
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babystepsTodo[Z_AXIS]+=(int)encoderPosition;
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babystepsTodo[Z_AXIS]+=BABYSTEP_Z_MULTIPLICATOR*(int)encoderPosition;
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encoderPosition=0;
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lcdDrawUpdate = 1;
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}
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