Cleanup in stepper_indirection.h
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@ -447,18 +447,22 @@ void reset_stepper_drivers(); // Called by settings.load / settings.reset
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* Extruder indirection for the single E axis
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*/
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#if ENABLED(SWITCHING_EXTRUDER)
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#if EXTRUDERS == 2
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#if EXTRUDERS > 4
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#define E_STEP_WRITE(v) do{ if (current_block->active_extruder < 2) { E0_STEP_WRITE(v); } else if (current_block->active_extruder < 4) { E1_STEP_WRITE(v); } else { E2_STEP_WRITE(v); } }while(0)
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#define NORM_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE(!INVERT_E0_DIR); break; case 1: E0_DIR_WRITE( INVERT_E0_DIR); break; case 2: E1_DIR_WRITE(!INVERT_E1_DIR); break; case 3: E1_DIR_WRITE( INVERT_E1_DIR); break; case 4: E2_DIR_WRITE(!INVERT_E2_DIR); } }while(0)
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#define REV_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE( INVERT_E0_DIR); break; case 1: E0_DIR_WRITE(!INVERT_E0_DIR); break; case 2: E1_DIR_WRITE( INVERT_E1_DIR); break; case 3: E1_DIR_WRITE(!INVERT_E1_DIR); break; case 4: E2_DIR_WRITE( INVERT_E2_DIR); } }while(0)
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#elif EXTRUDERS > 3
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#define E_STEP_WRITE(v) do{ if (current_block->active_extruder < 2) { E0_STEP_WRITE(v); } else { E1_STEP_WRITE(v); } }while(0)
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#define NORM_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE(!INVERT_E0_DIR); break; case 1: E0_DIR_WRITE( INVERT_E0_DIR); break; case 2: E1_DIR_WRITE(!INVERT_E1_DIR); break; case 3: E1_DIR_WRITE( INVERT_E1_DIR); } }while(0)
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#define REV_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE( INVERT_E0_DIR); break; case 1: E0_DIR_WRITE(!INVERT_E0_DIR); break; case 2: E1_DIR_WRITE( INVERT_E1_DIR); break; case 3: E1_DIR_WRITE(!INVERT_E1_DIR); } }while(0)
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#elif EXTRUDERS > 2
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#define E_STEP_WRITE(v) do{ if (current_block->active_extruder < 2) { E0_STEP_WRITE(v); } else { E1_STEP_WRITE(v); } }while(0)
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#define NORM_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE(!INVERT_E0_DIR); break; case 1: E0_DIR_WRITE( INVERT_E0_DIR); break; case 2: E1_DIR_WRITE(!INVERT_E1_DIR); } }while(0)
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#define REV_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE( INVERT_E0_DIR); break; case 1: E0_DIR_WRITE(!INVERT_E0_DIR); break; case 2: E1_DIR_WRITE( INVERT_E1_DIR); } }while(0)
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#else
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#define E_STEP_WRITE(v) E0_STEP_WRITE(v)
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#define NORM_E_DIR() do{ E0_DIR_WRITE(current_block->active_extruder ? INVERT_E0_DIR : !INVERT_E0_DIR); }while(0)
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#define REV_E_DIR() do{ E0_DIR_WRITE(current_block->active_extruder ? !INVERT_E0_DIR : INVERT_E0_DIR); }while(0)
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#elif EXTRUDERS > 4
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#define E_STEP_WRITE(v) do{ if (current_block->active_extruder < 2) { E0_STEP_WRITE(v); } else if (current_block->active_extruder < 4) { E1_STEP_WRITE(v); } else { E2_STEP_WRITE(v); } }while(0)
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#define NORM_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE(!INVERT_E0_DIR); break; case 1: E0_DIR_WRITE(INVERT_E0_DIR); break; case 2: E1_DIR_WRITE(!INVERT_E1_DIR); break; case 3: E1_DIR_WRITE(INVERT_E1_DIR); break; case 4: E2_DIR_WRITE(!INVERT_E2_DIR); } }while(0)
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#define REV_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE(INVERT_E0_DIR); break; case 1: E0_DIR_WRITE(!INVERT_E0_DIR); break; case 2: E1_DIR_WRITE(INVERT_E1_DIR); break; case 3: E1_DIR_WRITE(!INVERT_E1_DIR); break; case 4: E2_DIR_WRITE(INVERT_E2_DIR); } }while(0)
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#elif EXTRUDERS > 2
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#define E_STEP_WRITE(v) do{ if (current_block->active_extruder < 2) { E0_STEP_WRITE(v); } else if (current_block->active_extruder < 4) { E1_STEP_WRITE(v); } else { E1_STEP_WRITE(v); } }while(0)
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#define NORM_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE(!INVERT_E0_DIR); break; case 1: E0_DIR_WRITE(INVERT_E0_DIR); break; case 2: E1_DIR_WRITE(!INVERT_E1_DIR); break; case 3: E1_DIR_WRITE(INVERT_E1_DIR); } }while(0)
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#define REV_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE(INVERT_E0_DIR); break; case 1: E0_DIR_WRITE(!INVERT_E0_DIR); break; case 2: E1_DIR_WRITE(INVERT_E1_DIR); break; case 3: E1_DIR_WRITE(!INVERT_E1_DIR); } }while(0)
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#endif
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#elif ENABLED(MK2_MULTIPLEXER) // Even-numbered steppers are reversed
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#define E_STEP_WRITE(v) E0_STEP_WRITE(v)
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@ -467,24 +471,24 @@ void reset_stepper_drivers(); // Called by settings.load / settings.reset
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#elif EXTRUDERS > 4
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#define E_STEP_WRITE(v) do{ switch (current_block->active_extruder) { case 0: E0_STEP_WRITE(v); break; case 1: E1_STEP_WRITE(v); break; case 2: E2_STEP_WRITE(v); break; case 3: E3_STEP_WRITE(v); break; case 4: E4_STEP_WRITE(v); } }while(0)
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#define NORM_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE(!INVERT_E0_DIR); break; case 1: E1_DIR_WRITE(!INVERT_E1_DIR); break; case 2: E2_DIR_WRITE(!INVERT_E2_DIR); break; case 3: E3_DIR_WRITE(!INVERT_E3_DIR); break; case 4: E4_DIR_WRITE(!INVERT_E4_DIR); } }while(0)
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#define REV_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE(INVERT_E0_DIR); break; case 1: E1_DIR_WRITE(INVERT_E1_DIR); break; case 2: E2_DIR_WRITE(INVERT_E2_DIR); break; case 3: E3_DIR_WRITE(INVERT_E3_DIR); break; case 4: E4_DIR_WRITE(INVERT_E4_DIR); } }while(0)
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#define REV_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE( INVERT_E0_DIR); break; case 1: E1_DIR_WRITE( INVERT_E1_DIR); break; case 2: E2_DIR_WRITE( INVERT_E2_DIR); break; case 3: E3_DIR_WRITE( INVERT_E3_DIR); break; case 4: E4_DIR_WRITE( INVERT_E4_DIR); } }while(0)
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#elif EXTRUDERS > 3
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#define E_STEP_WRITE(v) do{ switch (current_block->active_extruder) { case 0: E0_STEP_WRITE(v); break; case 1: E1_STEP_WRITE(v); break; case 2: E2_STEP_WRITE(v); break; case 3: E3_STEP_WRITE(v); } }while(0)
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#define NORM_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE(!INVERT_E0_DIR); break; case 1: E1_DIR_WRITE(!INVERT_E1_DIR); break; case 2: E2_DIR_WRITE(!INVERT_E2_DIR); break; case 3: E3_DIR_WRITE(!INVERT_E3_DIR); } }while(0)
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#define REV_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE(INVERT_E0_DIR); break; case 1: E1_DIR_WRITE(INVERT_E1_DIR); break; case 2: E2_DIR_WRITE(INVERT_E2_DIR); break; case 3: E3_DIR_WRITE(INVERT_E3_DIR); } }while(0)
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#define REV_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE( INVERT_E0_DIR); break; case 1: E1_DIR_WRITE( INVERT_E1_DIR); break; case 2: E2_DIR_WRITE( INVERT_E2_DIR); break; case 3: E3_DIR_WRITE( INVERT_E3_DIR); } }while(0)
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#elif EXTRUDERS > 2
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#define E_STEP_WRITE(v) do{ switch (current_block->active_extruder) { case 0: E0_STEP_WRITE(v); break; case 1: E1_STEP_WRITE(v); break; case 2: E2_STEP_WRITE(v); } }while(0)
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#define NORM_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE(!INVERT_E0_DIR); break; case 1: E1_DIR_WRITE(!INVERT_E1_DIR); break; case 2: E2_DIR_WRITE(!INVERT_E2_DIR); } }while(0)
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#define REV_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE(INVERT_E0_DIR); break; case 1: E1_DIR_WRITE(INVERT_E1_DIR); break; case 2: E2_DIR_WRITE(INVERT_E2_DIR); } }while(0)
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#define REV_E_DIR() do{ switch (current_block->active_extruder) { case 0: E0_DIR_WRITE( INVERT_E0_DIR); break; case 1: E1_DIR_WRITE( INVERT_E1_DIR); break; case 2: E2_DIR_WRITE( INVERT_E2_DIR); } }while(0)
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#elif EXTRUDERS > 1
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#if ENABLED(DUAL_X_CARRIAGE) || ENABLED(DUAL_NOZZLE_DUPLICATION_MODE)
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#define E_STEP_WRITE(v) do{ if (extruder_duplication_enabled) { E0_STEP_WRITE(v); E1_STEP_WRITE(v); } else if (current_block->active_extruder == 0) { E0_STEP_WRITE(v); } else { E1_STEP_WRITE(v); } }while(0)
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#define NORM_E_DIR() do{ if (extruder_duplication_enabled) { E0_DIR_WRITE(!INVERT_E0_DIR); E1_DIR_WRITE(!INVERT_E1_DIR); } else if (current_block->active_extruder == 0) { E0_DIR_WRITE(!INVERT_E0_DIR); } else { E1_DIR_WRITE(!INVERT_E1_DIR); } }while(0)
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#define REV_E_DIR() do{ if (extruder_duplication_enabled) { E0_DIR_WRITE(INVERT_E0_DIR); E1_DIR_WRITE(INVERT_E1_DIR); } else if (current_block->active_extruder == 0) { E0_DIR_WRITE(INVERT_E0_DIR); } else { E1_DIR_WRITE(INVERT_E1_DIR); } }while(0)
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#define REV_E_DIR() do{ if (extruder_duplication_enabled) { E0_DIR_WRITE( INVERT_E0_DIR); E1_DIR_WRITE( INVERT_E1_DIR); } else if (current_block->active_extruder == 0) { E0_DIR_WRITE( INVERT_E0_DIR); } else { E1_DIR_WRITE( INVERT_E1_DIR); } }while(0)
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#else
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#define E_STEP_WRITE(v) do{ if (current_block->active_extruder == 0) { E0_STEP_WRITE(v); } else { E1_STEP_WRITE(v); } }while(0)
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#define NORM_E_DIR() do{ if (current_block->active_extruder == 0) { E0_DIR_WRITE(!INVERT_E0_DIR); } else { E1_DIR_WRITE(!INVERT_E1_DIR); } }while(0)
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#define REV_E_DIR() do{ if (current_block->active_extruder == 0) { E0_DIR_WRITE(INVERT_E0_DIR); } else { E1_DIR_WRITE(INVERT_E1_DIR); } }while(0)
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#define REV_E_DIR() do{ if (current_block->active_extruder == 0) { E0_DIR_WRITE( INVERT_E0_DIR); } else { E1_DIR_WRITE( INVERT_E1_DIR); } }while(0)
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#endif
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#elif ENABLED(MIXING_EXTRUDER)
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#define E_STEP_WRITE(v) NOOP /* not used for mixing extruders! */
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@ -508,7 +512,7 @@ void reset_stepper_drivers(); // Called by settings.load / settings.reset
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#else
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#define E_STEP_WRITE(v) E0_STEP_WRITE(v)
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#define NORM_E_DIR() E0_DIR_WRITE(!INVERT_E0_DIR)
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#define REV_E_DIR() E0_DIR_WRITE(INVERT_E0_DIR)
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#define REV_E_DIR() E0_DIR_WRITE( INVERT_E0_DIR)
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#endif
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#endif // STEPPER_INDIRECTION_H
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